FINAL REPORT
HC
HOLY CROSS HOSPITAL – NORTH ADDITION
Holy Cross Hospital
North Addition
Silver Spring, MD
Philip Mackey
L/E Option
Dr. Mistrick – Adviser
Spring 2006
Phil Mackey
Philip Mackey
Holy Cross Hospital – North Addition
Silver Spring, MD
Electrical/Lighting option
Project Name: Holy Cross Hospital – North Addition
Location: Silver Spring, MD
Owner: Holy Cross Hospital
Size: 90,000 sq. ft. addition, 44,000 sq. ft. renovation
Architect: Smithgroup
Cost: $21.9 million including $7.8 million MEP system
MEP Consultant: Leach Wallace
and $3.1 million structural system
Associates
Date of Construction: April 2004 - August 2005
Structural Engineer: McMullen &
Associates
Lighting:
Public spaces are mainly lit with a
combination of fluorescent downlights and
decorative compact fluorescent and
incandescent accent lighting. Exam rooms
and patient areas are lit primarily with
institutional linear fluorescent fixtures with task
lighting where needed.
Civil Engineer: Drewberry & Davis
Construction Manager: Bovis Lend
Lease
Electrical:
•3-tiered emergency power
distribution system in
addition to normal service
•Two 750 kW generators
with 5000 amp paralleling
switchgear
•3000 kVA substation with
14.4 kV supply
Mechanical:
Structural:
•Structural steel skeleton
•Glass curtain walls on concourse/atrium level
•Efis cavity walls on upper floors
•Decorative glass knee walls in concourse
•Dedicated custom modular
AHU feeds critical/patient
areas with additional AHU
serving lobby and office
•New hot water heating
plant installed on 2nd floor
penthouse
HC
FINAL REPORT
Phil Mackey
HOLY CROSS HOSPITAL – NORTH ADDITION
Table of Contents
Section
Page
Executive Summary………………………………………………………………….
Background…………………………………………………………………………..
Site and Architecture………………………………………………………………...
Introduction to Lighting……………………………………………………………..
Registration Area…………………………………………………………………….
Main Lobby………………………………………………………………………......
Daylight Study………………………………………………………………………...
Introduction to Electrical……………………………………………………………
Electrical Depth……………………………………………………………………....
Alternate 1………………………………………………………………………….....
Alternate 2…………………………………………………………………………….
Construction Management Breadth………………………………………………...
Mechanical Breadth………………………………………………………………….
Conclusions…………………………………………………………………………...
References……………………………………………………………………………
Acknowledgements…………………………………………………………………..
Appendix
1
2
3
3
4
5
15
26
33
34
35
44
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FINAL REPORT
HC
HOLY CROSS HOSPITAL – NORTH ADDITION
Executive Summary
The Holy Cross Hospital North Addition presents an interesting and unique
mixture of spaces when discussing a typical hospital. Included among the usual exam
rooms, nurses stations, and operating rooms are an assortment of unique spaces such as
the conference center, concourse, lobby and surrounding spaces. In my lighting depth,
my design focuses on two spaces: the out-patient registration area and the main entrance
lobby. The following report includes an in-depth discussion of design concepts and
criteria, equipment selections and characteristics, reflected ceiling plans, power densities,
system performances, and conclusions on the designs’ effectiveness. My goal for each
space was to design a lighting system that both accentuated the architecture and
functioned efficiently while remaining a minimal intrusion to the space. A portion of the
main lobby space was also analyzed for the feasibility of implementing a dimming
control system to utilize the available daylight within the space.
For the electrical depth, I proposed and investigated the feasibility of two separate
alternatives. Alternative 1 discusses the feasibility of replacing the transformers feeding
the 208Y/120V panels with a single transformer stepping down to a 208Y/120V
distribution panel. Alternative 2 discusses the feasibility of reconfiguring the entire
emergency generator system by including the normal power branch under an additional
automatic transfer switch and supplying it with power from an isolated generator sized to
feed only the North Addition portion of the hospital.
The Construction Management breadth analyzes the changes proposed in
Alternate 2 and discusses the impact it will have on the cost, scheduling, and concerns
that might arise in the construction phase of the project. The Mechanical breadth
analyzes the impact Alternate 1 imposes upon the existing mechanical system. It
discusses the redistribution of the sensible loads associated with the transformer changes
and resizes the VAV boxes and associated ductwork.
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Phil Mackey
FINAL REPORT
HC
HOLY CROSS HOSPITAL – NORTH ADDITION
Phil Mackey
Background
The Holy Cross Hospital –
North Addition project is a 4-story,
80,000 square feet addition with
44,000 square feet of renovation
work. Holy Cross Hospital is
located north of Washington, D.C.
adjacent to the Capitol Beltway. The
addition consists of a main
concourse, new main lobby, a gift
shop, and a conference center wing
on the 1st floor; a new obstetrician
exam wing on the 2nd floor; a new
gynecological exam wing on the 3rd
Figure 1: Architects Rendering of North Addition
floor; and unoccupied space on the
th
4 floor for future expansion. The new addition not only houses patient exam rooms, but
is the main entrance to the hospital and is a major source of circulation on the 1st floor
while connecting the North Addition with the new Emergency Department addition via
the concourse.
Site and Architecture
The North Addition to Holy Cross
Hospital is part of a larger 260,000 square foot
additions and alterations to the facility. The
additions include the North Addition,
Emergency Department addition, and a never
Physician’s Office Building (POB). Also
included in the overall package is extensive
renovation work in the ICU, NICU, Labor and
Delivery, Ambulatory Services, MRI,
Operating Room departments. In total, the
hospital will be spending roughly $69 million
Figure 2: Architects Rendering of Emergency
expanding and improving the facility.
Department/POB Addition
Included in these renovations are some major
infrastructure improvements. A new emergency generator plant will include two new
500-ton centrifugal chillers and a dual cell cooling tower, three new 750 KW generators
and 5000 amp paralleling switchgear, and an additional 3000 KVA substation to support
the additions.
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FINAL REPORT
HC
HOLY CROSS HOSPITAL – NORTH ADDITION
Introduction to Lighting Depth
The lighting redesign for the Holy Cross Hospital – North Addition focuses on 2
spaces: the out-patient registration area and the main lobby. As with any lighting design,
each space should be aesthetically pleasing as well as function properly according to the
space’s intent. In doing so, one must design a lighting system that compliments the
architecture of the space while efficiently and effectively delivering ample light levels to
the task plane. Lastly, this proposed system must be desirable from a sustainability point
of view by being easy to maintain and keep operational.
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HOLY CROSS HOSPITAL – NORTH ADDITION
Registration – Lighting Space
Figure 3: Registration space and relationship with surrounding spaces
Introduction
The registration space is located adjacent to the main entrance lobby and
concourse for the North Addition to the hospital. Its purpose is to process and assist
patients waiting for out-patient surgery. The space also functions as an intermediate
corridor for some faculty and staff. The north wall consists of floor to ceiling glass with
a frosted-striped finish separating several administration offices from the registration
desks. The east façade is open to the patient waiting area and the west façade is open to
the main lobby. On the south façade, a curved light wood-paneled partition wall is
located behind the registration desks ending approximately 8’ a.f.f. with the top portion
of the wall open to the main concourse. Metal partitions separate each work station. The
floor is carpeted with a tan random patterned tile carpet.
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HOLY CROSS HOSPITAL – NORTH ADDITION
Design Concepts
The design concept for the registration space was to accentuate the unique
architectural features of the space with minimal fixture obtrusion while still provide
adequate quality light to maintain productivity and accuracy of the crucial tasks. Because
the space is so centrally located with respects to the main lobby and major thoroughfares
of the building, I wanted to keep the same overall
feeling to the space as the adjacent lobby.
However, I wanted to provide enough variation to
present the registration space as its own unique
area with respective tasks due to the lack of clear
boundaries between the space and the main
lobby/concourse.
To prevent potential problems with light
spilling into the private offices, I chose a
direct/indirect 2x2 fixture that will provide even,
soft light to the pseudo-corridor separating the
private offices and public registration desks and
not disturb the private office patrons with a lot of
direct light. Since the ceiling is rather low in this
space (8’6”), I did not feel a pendant indirect
would be best suited for the situation. To
accentuate some of the architectural features, I ran
strips of color changing LED’s vertically on the
front face of each desk partition. This should
Figure 4: Existing condition of
add some “pop” to the space and call attention
Registration space
to its main function. I highlighted the curved
back wall with recessed fluorescent downlights to bring out the three-dimensionality of
the wall as well as open up the rather cramped area behind the desks visually. For the
ambient illumination of the desks, each station has a recessed downlight directly above
the desk and receives some further light from the 2x2 basket fixtures in the pseudocorridor. Additionally, each station has an adjustable-armed talk light that is controlled
locally at the desk for further illumination of the workplane.
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FINAL REPORT
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Design Criteria
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Appearance of Space and Luminaires – Being in a direct line of sight to several
busy public spaces, the appearance of the space is critical. Continuity between the
aesthetics of all the public spaces as the public enters the hospital helps form their
opinion on the quality of care their loved ones will receive if treated there. Since the
architecture of the entire addition sends a strong statement, the lighting fixtures should
take more of a diminished roll and let the combination of light and architecture make
the statement.
Color Appearance – Color appearance is crucial to proper facial recognition as well
as the proper highlighting of various surfaces in the space (wood-paneled wall,
countertops).
Direct Glare – Prevention of direct glare is essential to the operation of this space.
Both registration personnel and patients need to use the same desk space from opposite
sides of the desk to fill out paper work. Glare would hinder their ability to read things
properly and may result in registration inaccuracies, which are important concerning
healthcare procedures.
Light Distribution – Light distribution on surfaces needs consideration since the
majority of the tasks taking place in this area will be done on a desk or counter.
Registration has young and old, healthy and sick people that need to use this space
efficiently before they can be cared for. Therefore, the registration desks should be lit
evenly and adequately.
Facial Modeling - Modeling of faces/objects is important since human interaction is
very prevalent in this space. People are constantly being registered and sit across from
registration personnel while doing so. To ensure conversation is not distracted, proper
facial modeling needs to be achieved.
Horizontal Illuminance – 30 fc (reading), 10 fc (corridor)
Vertical Illuminance – 3 fc
Maximum Power Density – 1.3 W/ft2
(ASHRAE Standard 90.1)
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Phil Mackey
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FINAL REPORT
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HOLY CROSS HOSPITAL – NORTH ADDITION
Fixture Schedule:
Lighting Fixture Schedule
Type
A
B1
B2
D1
F3
Description
Manufacturer/Catalog No.
2' X 2' DIRECT/INDIRECT RECESSED, MICRODAYBRITE #2TOCG240-PMW-277PERFORATED MESH DIFFUSER, CENTER
1/2-EB
BASKET, WHITE FINISH, GRID CEILING
4" OPEN DOWNLIGHT, VERTICAL LAMP,
ALUMINUM REFLECTOR AND SELFGOTHAM #AFV-13DTT-6AR-277
FLANGED TRIM
4" OPEN DOWNLIGHT, VERTICAL LAMP,
ALUMINUM REFLECTOR AND SELFGOTHAM #AFV-18TRT-6AR-277
FLANGED TRIM
ADJUSTABLE TABLE LAMP, SILVER FINISH,
BERENICE - MEDA & RIZZATTO
BLUE GLASS REFLECTOR
1985
6" COLOR CHANGING LED COVE STRIP,
COLOR KINETICS i-COLOR COVE
COLOR ADJUSTING CAPABILITIES, VENTED
NXT 6"
PLASTIC HOUSING
Lamps
CCT
Voltage
(2) 40WTT5
3500K
277
(1) CFL13Q
3500K
277
(1) CFL18TRT
3500K
277
(1) 35W GY6.35
3000K
12
INCLUDED
100010000K
120
Notes
3,4
NOTES:
3. INTEGRAL STEP-DOWN TRANSFORMER INCLUDED WITH FIXTURES
4. SEE INCLUDED DETAIL OF FIXTURE FOR MOUNTING SPECIFICS
* All fixtures in this space (excluding D1) are switched by a single keyed switch located in an adjacent janitor’s closet due to the
extensive public access to the space.
Light Loss Factors:
Light Loss Factors
Type
Fixture
B1
B2
2'x2' recessed
direct/indirect
4" gotham downlight
4" gotham downlight
D1
Task Light
F1,F2,F3
LED Cove
A
Lamp
Lamp Data
Initial
Mean
Lumens Lumens
Input
Watts
Ballast Data
Ballast
Dimming
Factor
LLF's
LLD
LDD
RSDD
Total LLF
(2) F40BX
3150
2840
81
1.03
-
0.90
0.88
0.97
0.793
(1) CF13Q
(1) CF18TRT
(1) 35W 12V
GY6.35
-
900
1200
755
1010
16
20
1
1.05
-
0.84
0.84
0.88
0.88
0.97
0.97
0.716
0.754
600
-
35
1
-
0.97
0.88
0.97
0.828
45
-
6.9/l.f.
1
-
1.00
0.86
0.97
0.834
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FINAL REPORT
HC
HOLY CROSS HOSPITAL – NORTH ADDITION
LED Mounting Detail:
Figure 5: LED Partition Installation Detail
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Phil Mackey
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HC
FINAL REPORT
Phil Mackey
HOLY CROSS HOSPITAL – NORTH ADDITION
Power Density:
Power Density Calcs
Fixture
A
B1
B2
D1
F3
Ballast
Quantity
Watts/Fixture
81
4
16
12
20
5
35
5
6.9
24
Total Watts:
Power Density (W/ft2):
Total
324
192
100
175
166
957
1.15
Calculation Grids:
Calc Grids
Registration
Plane Height
Average
(ft)
(fc)
Pseudo-corridor
0
18
Desktops
2.5
36
* Max value correlates to point under task lamp
Description
Maximum
(fc)
30
*72
Minimum
(fc)
5
15
Figure 6: Registration Illuminance Pseudo-Rendering
11
Max/Min
(fc)
6.0
4.8
HC
FINAL REPORT
HOLY CROSS HOSPITAL – NORTH ADDITION
Renderings:
Figure 7: Registration Rendering
Figure 8: Registration Rendering
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Phil Mackey
FINAL REPORT
HC
HOLY CROSS HOSPITAL – NORTH ADDITION
Figure 9: Registration Rendering
Figure 10: Registration Rendering
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Phil Mackey
HC
FINAL REPORT
HOLY CROSS HOSPITAL – NORTH ADDITION
Conclusion
Overall, the proposed lighting design for this space successfully achieved my
design goals. The direct/indirect basket fixtures both provided even, soft lighting for the
corridor, as well as spread enough light laterally to provide some ambient light for the
entire space without affecting the private offices on the north wall. The average
illuminance for that corridor was also above the design value of 10 fc. The downlights
grazing the curved back wall both accentuated the curvature and texture of the wall while
providing workplane illuminance on the back countertops with an average of 22 fc. The
combination of the 2x2 basket fixtures and the downlights centered over each workstation
provided an ambient illuminance value of roughly 20 fc. With the addition of the
adjustable task lamp, individuals had an average of 36 fc on the workplane with a cone
average of approximately 65 fc underneath the desk lamp. Power density was below the
ASHRAE 90.1 Standards and should contribute to energy conservation for the entire
building.
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Phil Mackey
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FINAL REPORT
HOLY CROSS HOSPITAL – NORTH ADDITION
Lobby – Lighting Space
Figure 11: Main Lobby space and relationship with surrounding spaces
Introduction
The main lobby will serve as the primary entrance to the North Addition of the
hospital. The lobby aims to funnel people into the building and distribute them
throughout the facility via the adjacent concourses and elevator banks. Not only used for
circulation, the space introduces visitors to the facility and needs to represent the function
and principles of the hospital. Besides serving as the heart of the circulation system for
the building, the main lobby also houses an information kiosk, meeting/reading area, and
several pieces of artwork from local D.C. artists. The circulation portions of the space
are light wood-tiled flooring and gypsum ceilings. The meeting/reading area has a darker
brown tiled carpet and wood-paneled ceiling. The building north wall of the lobby
consists of light wood panels and the building east wall is an arced blue mosaic tiled
partition that separates the main lobby from one of the elevator banks. The information
kiosk has an elliptical cove mimicking the shape of the kiosk desk with a column housed
within the interior of the kiosk. All exterior walls are floor to ceiling glass allowing a
nice exposure to the true north sky.
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FINAL REPORT
HC
HOLY CROSS HOSPITAL – NORTH ADDITION
Design Concepts
The design concept for the main lobby
was to invite visitors into the hospital and
present them with a pleasing, positive feel to
their experience. Since many visitors are
coming to visit sick loved ones, I wanted the
main lobby to give the feeling of health and
assurance that their loved ones will be taken
care of by a state-of-the art facility. When
taking into consideration the best means to
portray health, I came across the picture of a
tropical beach shown here. Before medical
science had advanced to the level of care we
Figure 12: Beach Inspiration
receive now, ill patients were often times sent
to tropical climates for both the physical and psychological benefits the tropics have to
offer. By emulating this environment in the main lobby, I hope to ease some of the
anxiety that is associated with visiting ill loved ones as well as create an overall positive
feel to the facility.
When considering my global design for the space, I wanted to take advantage of
the interesting architectural features and lines created by these features within the space.
To do so, I wanted to keep the lighting fixture geometry’s impact on the space as minimal
as possible, essentially letting the combination of light and architecture “speak” for the
space. For the ambient lighting in the circulation spaces, I provided recessed downlights
creating an average of 10-15 fc on the floor. The use of recessed downlights minimized
the fixture’s impact on the space creating a “simple” feel to the ceiling and not intruding
upon the space as a semi-recessed or surface-mounted fixture might appear. Over the
meeting/reading area, I used a similar philosophy, using recessed downlight, as to not
distract from the wood ceiling or the unique curved boundary created by the change of
materials from the rest of the lobby to this area. I wanted to achieve 30 fc at the
workplane because this seemed like a prime spot for people to sit and read the paper or a
book while they wait for someone.
Since so much of the façade is directly related to the exterior environment through
the floor to ceiling windows, I wanted to draw people into the space and give them a
better sense of the depth of the space by washing the back wall with recessed linear
fluorescent wallwash fixtures. Entering from the outside and adjusting to the drastic
changes in light levels during the day can sometimes be confusing and disorienting. By
lighting the back wall, one can more efficiently gain their bearings while decreasing the
“cave effect” of such a deep space relative to its height. This lit back wall is similar to
the bright horizon of a tropical beach assisting the beachgoer with their orientation. Also,
I wanted to highlight the curved art wall since it is such a bold statement both artistically
and geometrically with the main lobby. Again, I used recessed linear fluorescent
wallwash fixtures to create an even wash of the mosaic wall.
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For the information kiosk, I wanted to take advantage of the elliptical cove and
column to call attention to the importance of the desk and its function. Using the light as
a sign to potential visitors, the kiosk has more of a prominence in the space. To
accentuate the desks, I used adjustable recessed downlights to provide 50 fc on the
workplane since information and accuracy of communication is imperative to the
operation and effectiveness of the desk. I also placed an LED cove within the inner
elliptical raised ceiling. A translucent material was applied to the column, with an air gap
behind it, to also give the appearance of the column “glowing”. Metaphorically, this
represents the palm tree on that tropical beach. The interest created by the lighting of the
desk also helps to break up the depth of the room and create more interest in the center of
the lobby, otherwise a rather plain portion of the space.
Design Criteria
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Luminance of Room Surfaces – Luminance of room surfaces is essential in a lobby
with glass walls to the exterior. Walls need to be lit so the space does not seem dim
and “cave-like” as the sun penetrates into the space. Also, whether night or day,
illuminating the walls invites people into the space as well as make it look more
spacious.
Appearance of Space and Luminaires - Appearance of space and luminaires should
be considered because the lobby is the first impression of a building. The lobby must
invite people into the space and make them feel welcome. Improperly lit architectural
features and ugly, obtrusive luminaires takes away from the initial impression of the
facility. Visitors are probably there to see family and loved ones in the care of the
hospital. If the lobby does not look like it is maintained properly, people may not
think as highly of the facility that is caring for their loved ones.
Modeling of Faces/Objects - Modeling of faces/objects is important since human
interaction is very prevalent in this space. People meet and gather in the lobby
throughout the day and need to properly recognize others.
Light Distribution on Surfaces - Light distribution on surfaces needs consideration
since the lobby is a very multi-functional space. The lobby has people entering/exiting
the building, sitting and reading, engaging in conversation, and an information kiosk
which all require differing light levels. Therefore, certain zones need to be considered
for their specific tasks and should be lit accordingly.
Daylight Integration - Daylight integration and control needs to be considered since
the exterior wall is a glass curtain wall. Controls are important for power savings and
proper transitional lighting levels to assist in the eye’s need to adjust to different
lighting conditions inside. Dimming and zonal controls can be a way to more
accurately control the lighting environment to match the exterior conditions most
effectively.
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Color Appearance - Color appearance is important for both proper facial recognition
and for maintaining correct color characteristics on the numerous paintings, decorative
wall finishes, and feature art wall.
Reflected Glare – Especially in the meeting/reading area, reflected glare needs
consideration because veiling reflections can occur on the reading task if the lighting
system is improperly designed. The more directional light downward, typically the
less reflected glare. However, geometry of fixtures also plays a roll. Avoiding severe
hot spots on the ceiling from indirect lighting will decrease glare as well.
Horizontal Illuminance – 10 fc (circulation), 30 fc (reading)
Vertical Illuminance – 3 fc
Maximum Power Density – 1.3 W/ft2 (lobby), 1.2 W/ft2 (reading)
(ASHRAE Standard 90.1)
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HOLY CROSS HOSPITAL – NORTH ADDITION
Fixture Schedule:
Lighting Fixture Schedule
Type
B3
B4
C1
C2
D2
D3
F1
F2
Description
Manufacturer/Catalog No.
6" OPEN DOWNLIGHT, HORIZONTAL LAMP,
ALUMINUM REFLECTOR AND SELFGOTHAM #AF-1/26TRT-6AR-277
FLANGED TRIM
6" OPEN DOWNLIGHT, HORIZONTAL LAMP,
ALUMINUM REFLECTOR AND SELFGOTHAM #AF-1/42TRT-6AR-277
FLANGED TRIM
2' RECESSED LINEAR WALLWASH, 2"
PEERLESS #LWAR9-G-1-24T5HOAPERTURE, BLACK METAL DIFFUSER, GRID
HOL-U2-277
CEILING
4' RECESSED LINEAR WALLWASH, 2"
PEERLESS #LWAR9-G-1-28T5APERTURE, BLACK METAL DIFFUSER, GRID
HOL-U4-277
CEILING
4" RECESSED ADJUSTABLE SPOT, BLACK
ERCO #88111.000
POWDER-COAT FINISH, WHITE TRIM
ADJUSTABLE WALLWASH SPOT,
TRACK/CEILING MOUNTED, WHITE FINISH,
ERCO #72103.000
INTEGRATED ELECTRONIC TRANSFORMER
6" COLOR CHANGING LED COVE STRIP,
COLOR KINETICS i-COLOR COVE
COLOR ADJUSTING CAPABILITIES, VENTED
NXT 6"
PLASTIC HOUSING
6" COLOR CHANGING LED COVE STRIP,
COLOR KINETICS i-COLOR COVE
COLOR ADJUSTING CAPABILITIES, VENTED
NXT 6"
PLASTIC HOUSING
Lamps
CCT
Voltage
Notes
(1) CFL26TRT
3500K
277
(1) CFL42TRT
3500K
277
(1) F24T5HO
3500K
277
(1) F28T5
3500K
277
(1) 50W GY6.35
3000K
12
(1) 75W GY6.35
3000K
12
2
INCLUDED
100010000K
120
3,5
INCLUDED
100010000K
120
3,4
1
NOTES:
1. PROVIDE DIMMING BALLAST AS SPEC'D WITH FIXTURE IN APPENDIX A
2. FIXTURE COMES WITH 75W OPTION EVEN THOUGH SPEC SHEET DOES NOT REFLECT THAT
3. INTEGRAL STEP-DOWN TRANSFORMER INCLUDED WITH FIXTURES
4. SEE INCLUDED DETAIL OF FIXTURE FOR MOUNTING SPECIFICS
* All fixtures in this space are switched by keyed switches (based upon their circuiting) located in an adjacent janitor’s closet
due to the extensive public access to the space.
Light Loss Factors:
Light Loss Factors
Type
Fixture
Lamp
6" gotham downlight (1) CF26TRT
6" gotham downlight
(1) CF42TRT
2' peerless wallwash (1) F24T5HO
4' peerless wallwash
(1) F28T5
(1) 50W 12V
Erco adjustable spot
D2
GY6.35
(1) 50W 12V
Erco Parscan spot
D3
GY6.35
LED Cove
F1,F2,F3
* Input watts reflects a 2-lamp ballast
B3
B4
C1
C2
Lamp Data
Initial
Mean
Lumens Lumens
1710
1440
3200
2690
2000
1880
2900
2726
Input
Watts
29
45
27
*63
Ballast Data
Ballast
Dimming
Factor
1.1
0.95
x
1.02
1.03
-
LLF's
LLD
LDD
RSDD
Total LLF
0.84
0.84
0.94
0.94
0.88
0.88
0.88
0.88
0.97
0.97
0.97
0.97
0.791
0.682
0.818
0.826
850
-
50
1
-
0.97
0.88
0.97
0.828
950
-
50
1
-
0.97
0.88
0.97
0.828
45
-
6.9/l.f.
1
-
1.00
0.86
0.97
0.834
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HOLY CROSS HOSPITAL – NORTH ADDITION
LED Column Installation Detail:
Figure 13: Column LED Installation Detail
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Phil Mackey
HOLY CROSS HOSPITAL – NORTH ADDITION
Power Density:
Power Density Calcs
Circulation Spaces
Fixture
B3
C1
C2
D2
D3
F1
F2
Ballast
Quantity
Watts/Fixture
29
54
27
11
63
9
50
21
50
2
6.9
52
6.9
12
Total Watts:
Power Density (W/ft2):
Total
1566
297
567
1050
100
359
83
4022
0.84
Power Density Calcs
Reading Space
Fixture
B4
Ballast
Quantity
Watts/Fixture
45
34
Total Watts:
Power Density (W/ft2):
Total
1530
1530
0.97
Calculation Grids:
Calc Grids
Main Lobby
Description
Circulation Floor
Reading Area
Kiosk Desktop
Art Wall (vertical)
Plane Height
(ft)
0
2.5
2.5
-
Average
(fc)
15
31
61
34
22
Maximum
(fc)
44
40
100
64
Minimum
(fc)
7.3
14
35
8
Max/Min
(fc)
6.0
2.9
2.9
8.0
FINAL REPORT
HC
HOLY CROSS HOSPITAL – NORTH ADDITION
Figure 14: Main Lobby Illuminance Pseudo-Rendering
Figure 15: Main Lobby Illuminance Pseudo-Rendering
23
Phil Mackey
HC
FINAL REPORT
HOLY CROSS HOSPITAL – NORTH ADDITION
Renderings:
Figure 16: Main Lobby Rendering
Figure 17: Main Lobby Information Kiosk Rendering
24
Phil Mackey
FINAL REPORT
HC
HOLY CROSS HOSPITAL – NORTH ADDITION
Figure 18: Main Lobby Rendering
Figure 19: Main Lobby Meeting/Reading Area Rendering
25
Phil Mackey
HC
FINAL REPORT
HOLY CROSS HOSPITAL – NORTH ADDITION
Daylight Study
Goal
Determine whether or not dimming the reading area fixtures with daylight
dimming controls would be beneficial to the hospital monetarily. Two options were
considered: dimming all fixtures in the reading area, dimming a portion of them while
leaving the furthest fixtures from the windows on continuously. Furthermore, the
comparison was made between shutting off fixtures that went below BF = .05 or leaving
them run after they have already dimmed to no light output. The following analysis and
conclusion will detail this investigation.
Assumptions/Notes
1) Difference between dimming ballast and standard electronic ballast is $60
2) One zone of control will be used
3) Weather data based upon Washington, D.C.
4) Building entrance faces magnetic north
5) AGI32 was used for daylight calculations in conjunction with Excel
spreadsheet ‘Daylighting Analysis.xls’ located on enclosed CD-ROM
26
Phil Mackey
27
HC
FINAL REPORT
Phil Mackey
HOLY CROSS HOSPITAL – NORTH ADDITION
Weather Data:
Washington, D.C. Weather Data
Oct. 22 - Feb. 21
(Jan 21 analysis date)
Feb. 22 - April 21
Aug. 22 - Oct. 21
(Mar. 21 analysis
date)
April 22 - Aug. 21
(May 21 analysis
date)
Overcast
Partly Cloudy
Clear
64
29
29
54
34
33
50
43
29
Utility Rates:
Utility Rates
$/kWh:
* $/kW:
June-Oct
0.08333
-
Nov-May
0.09602
-
* Demand savings were ignored due to the negligible savings with respects to the entire
hospital demand
28
HC
FINAL REPORT
Phil Mackey
HOLY CROSS HOSPITAL – NORTH ADDITION
Annual Energy Consumption:
Annual Energy Consumption - kW
no fixture shut-off
Overcast
Month
Partly Cloudy
Selective
No
Selective
No
All Dim
All Dim
Dim
Controls
Dim
Controls
No
Controls
Oct. 22 - Feb. 21
(Jan 21 analysis
Feb. 22 - April 21
Aug. 22 - Oct. 21
(Mar. 21 analysis
April 22 - Aug. 21
(May 21 analysis
Totals:
Clear
Selective
Dim
All Dim
979.2
967.7
927.9
443.7
371.1
297.3
443.7
366.5
300.5
991.4
939.8
868.0
624.2
456.0
356.0
605.9
460.7
348.6
1071.0
3041.6
963.0
2870.6
885.0
2680.9
921.1
1989.0
552.4
1379.5
477.7
1131.0
621.2
1670.8
389.9
1217.2
326.5
975.6
Annual Energy Consumption - kW
fixture shut-off below BF = .05
Overcast
Month
Oct. 22 - Feb. 21
(Jan 21 analysis
Feb. 22 - April 21
Aug. 22 - Oct. 21
(Mar. 21 analysis
April 22 - Aug. 21
(May 21 analysis
Totals:
No
Controls
Partly Cloudy
Selective
No
Selective
No
All Dim
All Dim
Dim
Controls
Dim
Controls
Clear
All Dim
Selective
Dim
979.2
967.7
927.9
443.7
371.1
297.3
443.7
366.5
300.5
991.4
939.8
868.0
624.2
456.0
301.3
605.9
460.7
333.4
1071.0
3041.6
963.0
2870.6
885.0
2680.9
921.1
1989.0
552.4
1379.5
378.8
977.4
621.2
1670.8
370.2
1197.5
279.8
913.7
29
HC
FINAL REPORT
HOLY CROSS HOSPITAL – NORTH ADDITION
Annual Energy Savings:
Annual Energy Savings
no fixture shut-off
.
January
February 1-21
February 22-28
March
April 1-21
April 22-30
May
June
July
August 1-21
August 22-31
September
October 1-21
October 22-31
November
December
No Controls
KWh
Cost
474.3
45.54
306.0
29.38
146.9
14.10
569.2
54.65
385.6
37.02
192.8
18.51
664.0
63.76
642.6
53.55
664.0
55.33
449.8
37.48
183.6
15.30
550.8
45.90
449.8
37.48
153.0
12.75
459.0
44.07
474.3
45.54
610.38
Total Cost:
Savings:
All Dim
KWh
Cost
435.1
41.78
280.7
26.95
124.4
11.94
483.5
46.42
324.3
31.14
142.5
13.68
492.2
47.26
465.9
38.83
480.0
40.00
324.7
27.06
151.2
12.60
455.2
37.93
318.0
26.50
136.8
11.40
417.7
40.10
435.1
41.78
495.37
115.01
Selective Dim
KWh
Cost
390.8
37.52
252.3
24.23
106.4
10.21
414.9
39.84
276.4
26.54
126.6
12.16
437.7
42.03
413.3
34.44
424.7
35.39
286.9
23.91
127.3
10.61
382.2
31.85
265.5
22.12
119.8
9.99
372.0
35.72
390.8
37.52
434.07
176.31
Annual Energy Savings
fixture shut-off below BF=.05
.
January
February 1-21
February 22-28
March
April 1-21
April 22-30
May
June
July
August 1-21
August 22-31
September
October 1-21
October 22-31
November
December
No Controls
KWh
Cost
474.3
45.54
306.0
29.38
146.9
14.10
569.2
54.65
385.6
37.02
192.8
18.51
664.0
63.76
642.6
53.55
664.0
55.33
449.8
37.48
183.6
15.30
550.8
45.90
449.8
37.48
153.0
12.75
459.0
44.07
474.3
45.54
610.38
Total Cost:
Savings:
30
All Dim
KWh
Cost
435.1
41.78
280.7
26.95
124.4
11.94
483.5
46.42
324.3
31.14
142.5
13.68
492.2
47.26
465.9
38.83
480.0
40.00
324.7
27.06
151.2
12.60
455.2
37.93
318.0
26.50
136.8
11.40
417.7
40.10
435.1
41.78
495.37
115.01
Selective Dim
KWh
Cost
390.8
37.52
252.3
24.23
102.2
9.82
398.8
38.29
264.4
25.39
116.5
11.19
403.4
38.74
376.0
31.33
386.5
32.21
261.2
21.76
119.9
10.00
363.6
30.30
253.7
21.14
119.8
9.99
372.0
35.72
390.8
37.52
415.14
195.24
Phil Mackey
HC
FINAL REPORT
HOLY CROSS HOSPITAL – NORTH ADDITION
Payback Period:
Payback Period
Number
Dimming
Ballasts
34
All Dim (shut-off)
23
Selective Dim (shut-off)
34
All Dim (no shut-off)
Selective Dim (no shut-off)
23
Type
Payback
Period
(yrs)
17.7
7.8
17.7
7.1
Comments
Although the installation of a dimming system could save as much as $195/yr, the
best payback period for any four of the system is still over seven years. With a payback
period above five years, the savings become minimal and don’t begin to accrue until a
good distance into the future. For the reading area space in the main lobby, I would not
recommend the installation of dimming controls in the space for two reasons: the
payback period is too long for such a minimal savings and initial investment could
probably be invested more effectively in some other component of the hospital.
However, if the dimming system was added to the entire 1st floor public spaces (main
lobby, corridors, concourse, conference rooms, etc.), the larger system’s payback and
investment characteristics may be substantial enough to overlook the higher payback
period. In this specific case, I would not recommend installing a system of this
magnitude in the main lobby.
31
Phil Mackey
FINAL REPORT
HC
HOLY CROSS HOSPITAL – NORTH ADDITION
Space Conclusion
Overall, the proposed lighting design for this space successfully achieved my
design goals. The art wall stands out due to the wallwashers and becomes one of the
prominent features of the space. The kiosk presents itself as a crucial function of the
space due to the cove and backlit column while still having plenty of light on the
workplane. Although the elliptical cove looks a little “spotty” with its distribution, I
believe this can be attributed to computer program limitations more so than geometry of
the cove setup. I believe the back wall is lit well enough to create a boundary to the
“back” of the lobby when entering from the main entrance and nicely mirrors the
pedestrian motion from the concourse to the conference center. The spotlights aimed at
the artwork on the back wall also create another point of interest for those waiting or
walking through the space. The meeting/reading area has a nice even distribution of light
on the workplane without causing too much disruption in the wood-paneled ceiling.
Although the daylight study did not return favorable results, power density in both
the circulation areas and meeting/reading area were well below the ASHRAE Standards.
The efficiency of the design should contribute to energy conservation for the project.
32
Phil Mackey
FINAL REPORT
HC
HOLY CROSS HOSPITAL – NORTH ADDITION
Introduction to Electrical Depth
The electrical redesign for the Holy Cross Hospital – North Addition focuses on 2
separate alternatives and the effectiveness of their implementation in comparison to the
existing electrical system. The first alternative will consider the cost impact of replacing
six existing 480Y/277V to 208Y/277V step-down transformers located throughout the
addition with a single 480Y/277V to 208Y/277V step-down transformer and all electrical
system issues associated with that change. The second alternative will entail a much
more in-depth look at the hospital’s electrical system and emergency back-up. I will
investigate the feasibility of provide an emergency back-up generator for the entire North
Addition portion of the hospital (both emergency and normal branches) and will
investigate the financial implications this change will have on the project.
Since hospitals have such a critical need for consistent uninterrupted power
supply, the emergency system of a hospital is much more extensive and has more
regulations governing its installation. When considering changes to this hospital, I must
be very aware of these added regulations and make sure my redesign conforms to the
code set forth by the NEC.
33
Phil Mackey
HC
FINAL REPORT
HOLY CROSS HOSPITAL – NORTH ADDITION
Phil Mackey
Electrical Depth
For my Electrical Depth, I quickly realized I would be performing a lot of load
calculations due to the nature of my two alternates and the amount of redistribution I
would be analyzing. To aid in the accuracy of my analysis, I created my own excel
program that allows me to load a panel inputting each circuit’s information as it would be
documented on a set of drawings. However, I can also input the associated volt-amps
into the proper load type column (with its respective demand factor) and the excel
program will determine the connected, demand, and growth load for that panel. I felt the
need to document the creation of the excel program before I began my alternates
discussion because its assistance was imperative to the success and simplification of my
calculation process. The following panel is a sample of the program at use and can be
found in the entire panel schedule excel files on the enclosed CD-ROM:
Panel Schedule
Panel: LP-1N
Voltage: 480Y/277
Amps: 200
Wires: 4
Branch Circuit
Amp
P
1" C/3#4+1#8GRD
70
3
3/4" C/2#12+1#12GRD 20
1
20
1
3/4" C/2#12+1#12GRD 20
1
3/4" C/4#10+1#10GRD 30
3
3/4" C/2#12+1#12GRD 20
1
3/4" C/2#12+1#12GRD 20
1
3/4" C/2#12+1#12GRD 20
1
1" C/4#6+1#10GRD
60
3
Connected Load Phase A: (A)
Connected Load Phase B: (A)
Connected Load Phase C: (A)
Total VA:
184565
Load: (A)
222.1
25% Growth: (A)
277.6
Mains: MLO
Phase: 3
Description
XFMR T-1
LTG: PUBLIC TOILETS
SPARE
LTG: COFFEE BAR
PANEL DIM
LTG: GRD FLR STORAGE
LTG: GRD FLR STORAGE
LTG: GRD FLR CORRIDOR
PANEL XP
239.4
239.6
208.1
Loads (VA)
Ltg
Recept
Cir
1
0
0 12600 5220
3
1287
0 12780 5220
5
213
0 11520 5940
7
170 1202
9
2604
11
1163 2090
13
6500 1953
0
15
5552
832
0
17
4056 1445
0
19
2176
21
1924
768
23
1746
25 13211
0
0
0
27
9095
0
0
180
29
6220
0
0
180
25211.5
17820
22061.7
18180
16932.62
17640
Motor
0
0
0
0
0
0
0
0
0
0
0
0
34
0
0
0
0
0
0
Loc: 1ST FL ELEC RM
AIC: 25K
Mounting: SURFACE
Lg Motor
Equip
Cir Description
P Amp Branch Circuit
0
0 7236 12360 2 XFMR T-9
3
70
1" C/3#4+1#8GRD
0
0 7200 13280 4 0
0 3636 13080 6 8 LTG: RM 375-377
1
20 3/4" C/2#12+1#12GRD
10 LTG: RM 326-334
1
20 3/4" C/2#12+1#12GRD
12 LTG: RM 335-342
1
20 3/4" C/2#12+1#12GRD
0
0
14 LTG: GIFT SHOP
1
20 3/4" C/2#12+1#12GRD
0
0
16 LTG: SHELL SPACES
1
20 3/4" C/2#12+1#12GRD
0
0
18 LTG: GIFT SHOP
1
20 3/4" C/2#12+1#12GRD
20 SPARE
1
20
22 LTG: RM 391, 393
1
20 3/4" C/2#12+1#12GRD
24 SPARE
1
20
0
0
0 3696 26 XFMR T-11
3
100 1 1/2" C/3#1+1#8GRD
0
0
0 5640 28 0
0
0 6360 30 Demand Load Phase A: (A) 248.1
0
23292
Demand Load Phase B: (A) 244.7
0
26120
Demand Load Phase C: (A) 209.6
23076
0
HC
FINAL REPORT
HOLY CROSS HOSPITAL – NORTH ADDITION
Alternate 1
Introduction
Alternate 1 will focus on consolidating the current normal power transformers,
feeding all normal power 208Y/120V panels, to a single transformer fed from the
480Y/277V normal branch main distribution panel. From this system consolidation, I
will determine whether or not this change will save the hospital money on installation of
the system. Due to the characteristics of a hospital’s emergency power system, it is not
feasible to consolidate any of the emergency branch transformers due to the strict
isolation requirements laid out by Article 517 of the NEC code. Thus, I will be focusing
solely on the normal power transformers for this investigation.
Goal
I will determine the cost impact of the consolidation of normal power
transformers into a single transformer feeding all 208Y/120V panels.
Design Criteria
All electrical sizing and calculations were completed using requirements and
tables from the 2002 National Electric Code (NEC). Load calculations for existing
conditions can be found on enclosed CD-ROM under the file name ‘Master Panel
Schedule.xls’. Alternate 1 load calculations can be found under the file name ‘Alt 1
Panel Schedule.xls’.
35
Phil Mackey
HC
FINAL REPORT
HOLY CROSS HOSPITAL – NORTH ADDITION
Assumptions
When sizing the existing loads for each Panelboard throughout the system, I had
to make a lot of assumptions concerning the known equipment loads. With the assistance
of the engineers at Leach Wallace, I assigned load values to these various amounts of
equipment. From these assumptions, many of my panels were determined to be loaded
past their rated capacity. With respects to the system components I was redesigning and
resizing, I accounted for the calculated demand loads determined when surveying the
existing system. For simplicity’s sake however, I did not resize equipment previously
designed and not being touched by my alternates. I am confident the original design was
sized correctly and properly and the error was most likely in the many assumptions made
concerning equipment loads. Therefore, seemingly undersized equipment as noted was
not overlooked but considered and left intact.
I am aware a structural analysis should be performed to determine the structural
impact of moving the transformers from floor to floor. Due to time considerations, the
structural analysis was not performed, but is noted as an issue to be addressed.
36
Phil Mackey
HC
FINAL REPORT
Phil Mackey
HOLY CROSS HOSPITAL – NORTH ADDITION
Electrical Schematics
Existing Transformer Configuration:
- denotes 480Y/277V panel
- denotes 208Y/120V panel
Panel
MDP-N
Panel
LP-1N
Panel
LP-2N
Panel
LP-3N
Panel
LP-4N
XFMR
T-1
XFMR
T-9
XFMR
T-11
XFMR
T-2
XFMR
T-3
XFMR
T-4
Panel
PP-1N
Panel
PP-1N1
Panel
HCK
Panel
PP-2N
Panel
PP-3N
Panel
PP-4N
Refer to one-line diagram inserts for details of existing and proposed changes to the entire system
Figure 20: Alternate 1 Existing Design Schematic
Proposed Transformer Configuration:
Panel
MDP-N
XFMR
T-L
Panel
MDP-L
Panel
PP-2N
Panel
PP-2N
Panel
PP-2N
Panel
PP-2N
Refer to one-line diagram inserts for details of existing and proposed changes to the entire system
Figure 21: Alternate 1 Proposed Design Schematic
37
HC
FINAL REPORT
Phil Mackey
HOLY CROSS HOSPITAL – NORTH ADDITION
Electrical Equipment Schedules
To determine the financial impact of the proposed change stated above, I first had
to determine what components I would be deleting from the initial design to
accommodate for the new changes. The following table summarizes these deletions:
Electrical Equipment - Deleted Normal System
Components (Existing)
Transformer
Equipment Type
Name
kVA
Primary
Voltage
TRANSFORMER
TRANSFORMER
TRANSFORMER
TRANSFORMER
TRANSFORMER
TRANSFORMER
FEEDER
FEEDER
FEEDER
FEEDER
FEEDER
FEEDER
FEEDER
FEEDER
FEEDER
FEEDER
FEEDER
FEEDER
CIRCUIT BREAKER
CIRCUIT BREAKER
CIRCUIT BREAKER
CIRCUIT BREAKER
CIRCUIT BREAKER
CIRCUIT BREAKER
T-1
T-2
T-3
T-4
T-9
T-11
45
45
45
45
45
75
480∆
480∆
480∆
480∆
480∆
480∆
Circuit Breaker
Secondary
Voltage
Type
208Y/120
208Y/120
208Y/120
208Y/120
208Y/120
208Y/120
DRY
DRY
DRY
DRY
DRY
DRY
Feeding
Size (A)
Phase
Voltage
PP-1N
PP-1N1
HCK
PP-2N
PP-3N
PP-4N
70
70
100
70
70
70
3
3
3
3
3
3
208Y/120
208Y/120
208Y/120
208Y/120
208Y/120
208Y/120
Similarly, I needed to determine what components I would be adding to the current
system. The following table summarizes those additions:
Electrical Equipment - Added Normal System Components (Proposed)
Panelboard
Equipment Type
Name
PANEL
MDP-L
Load
Rating
Connected
(A)
(A)
644
800
Feeder
# Poles
Spaces
Voltage
Protection
(A)
3
24
208Y/120
800
Name
FEEDER
#1H
FEEDER
#1L
FEEDER
FEEDER
FEEDER
FEEDER
FEEDER
FEEDER
#1N
#1N1
#2N
#3N
#4N
#1HCK
39
Size
2 SETS
(3) #1/0
3 SETS
(4) #300
(4) #1/0
(4) #1/0
(4) #1/0
(4) #1/0
(4) #1/0
(4) #4/0
Rating (A)
Ground
Conduit
Size
Length (ft)
300
#6
1 1/2"
16
855
#2
2 1/2"
20
150
150
150
150
150
230
#6
#6
#6
#6
#6
#4
1 1/2"
1 1/2"
1 1/2"
1 1/2"
1 1/2"
1 1/2"
6
152
12
24
36
88
HC
FINAL REPORT
Phil Mackey
HOLY CROSS HOSPITAL – NORTH ADDITION
Electrical Equipment - Cont'd (Proposed)
Transformer
Equipment Type
Name
kVA
TRANSFORMER
CIRCUIT BREAKER
CIRCUIT BREAKER
CIRCUIT BREAKER
CIRCUIT BREAKER
CIRCUIT BREAKER
CIRCUIT BREAKER
CIRCUIT BREAKER
CIRCUIT BREAKER
T-L
225
Circuit Breaker
Primary Secondary
Voltage
Voltage
480?
208Y/120
Type
Feeding
Size (A)
Phase
Voltage
T-L
MDP-L
PP-1N
PP-1N1
HCK
PP-2N
PP-3N
PP-4N
300
800
150
150
200
150
150
150
3
3
3
3
3
3
3
3
480Y/277
208Y/120
208Y/120
208Y/120
208Y/120
208Y/120
208Y/120
208Y/120
DRY
Voltage Drop Calculations
Since my proposed redesign deals with some significantly long feeder runs, I had
to make sure the voltage drop for the feeders did not exceed 2% as recommended by
NEC Article 215.2 (A) (4). The following table summarizes the voltage drop
calculations and what wires were resized to maintain a 2% drop or less:
Voltage Drop Calculations - Alt. 1
Feeder
Size
VL-N
Amperage
Length
Factor
#1H
(2) #1/0
(3) #300
MCM
#1/0
#3/0
#1/0
#1/0
#1/0
#4/0
277
140
16
0.127
Vdrop
Factor*
0.283
120
215
20
0.0545
0.234
0.20
120
120
120
120
120
120
168
160
148
160
32
56
6
152
12
24
36
88
0.127
0.0865
0.127
0.127
0.127
0.0695
0.128
2.104
0.226
0.488
0.146
0.342
0.11
1.75
0.19
0.41
0.12
0.29
#1L
#1N
#1N1
#2N
#3N
#4N
#1HCK
* Assumed a P.F. of 0.95
- denotes upsized feeder to shown size due to voltage drop
40
% Vdrop
0.10
HC
FINAL REPORT
Phil Mackey
HOLY CROSS HOSPITAL – NORTH ADDITION
Pricing
With the help of a local electrical distributor, I priced the material and labor costs
for both the credits and additional costs associated with the above changes to the current
normal distribution system. The following table summarizes the credits associated with
the deleted components:
System Component Pricing - Alt. 1 Credits
Equipment Type
Product Number
Quantity
TRANSFORMER T-1
TRANSFORMER T-2
TRANSFORMER T-3
TRANSFORMER T-4
TRANSFORMER T-9
TRANSFORMER T-11
FEEDER (3 #4)
FEEDER (#8)
EMT (1")
FEEDER (4 #1/0)
FEEDER (#6)
EMT (1 1/2")
FEEDER (3 #4)
FEEDER (#8)
EMT (1")
FEEDER (4 #1/0)
FEEDER (#6)
EMT (1 1/2")
FEEDER (3 #4)
FEEDER (#8)
EMT (1")
FEEDER (4 #1/0)
FEEDER (#6)
EMT (1 1/2")
FEEDER (3 #4)
FEEDER (#8)
EMT (1")
FEEDER (4 #1/0)
FEEDER (#6)
EMT (1 1/2")
FEEDER (3 #4)
FEEDER (#8)
EMT (1")
FEEDER (4 #1/0)
FEEDER (#6)
EMT (1 1/2")
FEEDER (4 #4/0)
FEEDER (#4)
EMT (1 1/2")
FEEDER (3 #1)
FEEDER (#8)
EMT (1 1/2")
CIRCUIT BREAKER PP-1N
CIRCUIT BREAKER PP-1N1
CIRCUIT BREAKER HCK
CIRCUIT BREAKER PP-2N
CIRCUIT BREAKER PP-3N
CIRCUIT BREAKER PP-4N
45T3H
45T3H
45T3H
45T3H
45T3H
75TH3
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
FAL34070
FAL34070
FAL34100
FAL34070
FAL34070
FAL34070
1
1
1
1
1
1
14
14
14
10
10
10
15
15
15
12
12
12
22
22
22
12
12
12
15
15
15
12
12
12
20
20
20
152
152
152
88
88
88
16
16
16
1
1
1
1
1
1
41
Material
Cost
$3,553.00
$3,553.00
$3,553.00
$3,553.00
$3,553.00
$5,353.00
$30.24
$4.20
$14.69
$63.20
$4.50
$16.49
$28.80
$4.50
$15.74
$75.84
$5.40
$19.79
$42.24
$6.60
$23.08
$75.84
$5.40
$19.79
$28.80
$4.50
$15.74
$75.84
$5.40
$19.79
$38.40
$6.00
$20.98
$960.64
$68.40
$250.65
$830.72
$56.32
$145.11
$4.20
$4.80
$26.38
$616.00
$616.00
$616.00
$616.00
$616.00
$616.00
Labor
Quantity
48.0
48.0
48.0
48.0
48.0
48.0
0.8
1.1
0.6
0.8
0.9
1.2
0.7
1.0
1.3
1.8
0.7
1.0
0.9
1.2
0.7
1.0
1.2
1.6
9.1
12.2
5.3
7.0
1.0
1.3
1.0
1.0
1.0
1.0
1.0
1.0
Labor Cost
($/hr)
30.45
30.45
30.45
30.45
30.45
30.45
30.45
30.45
30.45
30.45
30.45
30.45
30.45
30.45
30.45
30.45
30.45
30.45
30.45
30.45
30.45
30.45
30.45
30.45
30.45
30.45
30.45
30.45
30.45
30.45
30.45
30.45
30.45
30.45
30.45
30.45
Total Labor
Total Cost
Cost
$1,461.60
$5,014.60
$1,461.60
$5,014.60
$1,461.60
$5,014.60
$1,461.60
$5,014.60
$1,461.60
$5,014.60
$1,461.60
$6,814.60
$25.58
$55.82
$4.20
$34.10
$48.79
$18.27
$81.47
$4.50
$24.36
$40.85
$27.41
$56.21
$4.50
$36.54
$52.28
$21.92
$97.76
$5.40
$29.23
$49.02
$40.19
$82.43
$6.60
$53.59
$76.67
$21.92
$97.76
$5.40
$29.23
$49.02
$27.41
$56.21
$4.50
$36.54
$52.28
$21.92
$97.76
$5.40
$29.23
$49.02
$36.54
$74.94
$6.00
$48.72
$69.70
$277.70
$1,238.34
$68.40
$370.27
$620.92
$160.78
$991.50
$56.32
$214.37
$359.48
$29.23
$33.43
$4.80
$38.98
$65.36
$30.45
$646.45
$30.45
$646.45
$30.45
$646.45
$30.45
$646.45
$30.45
$646.45
$30.45
$646.45
Total Credits: $40,439.34
HC
FINAL REPORT
Phil Mackey
HOLY CROSS HOSPITAL – NORTH ADDITION
After I had determined the financial impact of my proposed deleted components, I
determined the impact of my proposed additions to the system in the following table:
System Component Pricing - Alt. 1 Additions
Equipment Type
Product Number
Quantity
TRANSFORMER T-L
PANEL MDP-L
FEEDER (6 #1/0)
FEEDER (2 #6)
EMT (2 1 1/2")
FEEDER (12 #300 MCM)
FEEDER (3 #2)
EMT (3 2 1/2")
FEEDER (4 #1/0)
FEEDER (#6)
EMT (1 1/2")
FEEDER (4 #3/0)
FEEDER (#4)
EMT (1 1/2")
FEEDER (4 #1/0)
FEEDER (#6)
EMT (1 1/2")
FEEDER (4 #1/0)
FEEDER (#6)
EMT (1 1/2")
FEEDER (4 #1/0)
FEEDER (#6)
EMT (1 1/2")
FEEDER (4 #4/0)
FEEDER (#4)
EMT (1 1/2")
CIRCUIT BREAKER T-L
CIRCUIT BREAKER MDP-L
CIRCUIT BREAKER PP-1N
CIRCUIT BREAKER PP-1N1
CIRCUIT BREAKER HCK
CIRCUIT BREAKER PP-2N
CIRCUIT BREAKER PP-3N
CIRCUIT BREAKER PP-4N
225TH3
Eaton Elec. (pg. 27)
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
LOWES
Electrical Contractor
Electrical Contractor
LOWES
Electrical Contractor
Electrical Contractor
LOWES
Electrical Contractor
Electrical Contractor
LOWES
Electrical Contractor
Electrical Contractor
LOWES
Electrical Contractor
Electrical Contractor
LOWES
PL (pg. 8-33)
PL (pg. 8-33)
KCL34150
KCL34150
KCL34200
KCL34150
KCL34150
KCL34150
1
1
16
16
16
20
20
20
6
6
6
152
152
152
12
12
12
24
24
24
36
36
36
88
88
88
1
1
1
1
1
1
1
1
42
Material
Labor
Cost
Quantity
$12,406.00
80.0
$12,164.00
2.0
$151.68
1.0
$14.40
$48.22
1.3
$998.40
1.2
$66.00
$180.84
1.6
$37.92
0.4
$2.70
$9.89
0.5
$1,355.84
9.1
$97.28
$250.65
12.2
$75.84
0.7
$5.40
$19.79
1.0
$151.68
1.4
$10.80
$39.58
1.9
$227.52
2.2
$16.20
$59.36
2.9
$830.72
5.3
$56.32
$145.11
7.0
$7,700.00
1.0
$11,110.00
1.0
$4,548.00
1.0
$4,548.00
1.0
$4,548.00
1.0
$4,548.00
1.0
$4,548.00
1.0
$4,548.00
1.0
Labor Cost
($/hr)
$30.45
$30.45
$30.45
$30.45
$30.45
$30.45
$30.45
$30.45
$30.45
$30.45
$30.45
$30.45
$30.45
$30.45
$30.45
$30.45
$30.45
$30.45
$30.45
$30.45
$30.45
$30.45
$30.45
$30.45
$30.45
$30.45
Total Labor
Cost
$2,436.00
$60.90
$29.23
$38.98
$36.54
$48.72
$10.96
$14.62
$277.70
$370.27
$21.92
$29.23
$43.85
$58.46
$65.77
$87.70
$160.78
$214.37
$30.45
$30.45
$30.45
$30.45
$30.45
$30.45
$30.45
$30.45
Total Costs:
Total Cost
$14,842.00
$12,224.90
$180.91
$14.40
$87.20
$1,034.94
$66.00
$229.56
$48.88
$2.70
$24.51
$1,633.54
$97.28
$620.92
$97.76
$5.40
$49.02
$195.53
$10.80
$98.04
$293.29
$16.20
$147.06
$991.50
$56.32
$359.48
$7,730.45
$11,140.45
$4,578.45
$4,578.45
$4,578.45
$4,578.45
$4,578.45
$4,578.45
$79,769.75
HC
FINAL REPORT
HOLY CROSS HOSPITAL – NORTH ADDITION
Notes:
1. Material prices were obtained from Hite Electric (Altoona, PA) and Lowe’s of State
College
2. Electrician Labor Cost was obtained for the Washington, D.C. area from Leach
Wallace Assoc.
3. Labor productivity was quoted by Hite Electric (Altoona, PA) and consists of the
following:
ƒ Lay 100’ conduit: 1 person, 8 hrs
ƒ Pull 100’ (3-phase) wire: 2 people, 3 hrs
ƒ Install small (<45 KVA) transformer: 2 people, 3 days (includes all
connections)
ƒ Install large (>45 KVA) transformer: 2 people, 5 days (includes all
connections)
ƒ 42 pole Panelboard: 1 person, 2 hours (not including connections)
ƒ Circuit Breaker/Circuit connections: 1 person, 1 hr each
ƒ No additional labor costs to install ground wires. This is included in the price
for pulling the feeder.
Conclusions
From the results obtained above, I would not recommend changing the
transformer configuration to the proposed change. Although it would simplify the
transformer layout, it would cost the client an additional $39,000 and thus would not be
ideal. Additionally, the failure of the single transformer in proposed change would
constitute a failure of the entire 208Y/120V normal system. With the load distributed
amongst six transformers as initially designed, I feel the system is more reliable and less
likely to face a global catastrophic failure.
43
Phil Mackey
HC
FINAL REPORT
HOLY CROSS HOSPITAL – NORTH ADDITION
Alternate 2
Introduction
Alternate 2 will consider changing the existing emergency back-up system, which
is connected to the main generator sets and paralleling switchgear, by isolating the North
Addition emergency system from the rest of the hospital. Furthermore, the alternate will
include the normal power branch as part of the emergency back-up system. To do so, I
will be sizing an emergency generator to have enough capacity to supply ample power to
all three emergency branches and the normal power. This investigation would be
beneficial to the hospital if they were looking into the possibility of isolating the existing
hospital power distribution system from the new addition. This could benefit them if
they feel the facility is getting large enough that they would want to look into isolating
some of the system incase a catastrophic emergency equipment failure took place. Thus,
the entire hospital would not lose all power.
Goal
I will determine the cost impact of the resizing of equipment and addition of a
separate generator to provide the North Addition with an alternative power supply. In
addition, my Construction Management Breadth topic will detail this cost analysis as well
as address other installation and sequencing concerns associated with the proposed
changes.
Design Criteria
All electrical sizing and calculations were completed using requirements and
tables from the 2002 National Electric Code (NEC). Load calculations for existing
conditions can be found on enclosed CD-ROM under the file name ‘Master Panel
Schedule.xls’. Alternate 2 load calculations can be found under the file name ‘Alt 2
Panel Schedule.xls’.
Article 517 of the NEC sets out specific emergency system requirements for
healthcare facilities. Among these requirements, the article requires three separate
emergency branches: life safety, critical, and equipment. Each branch must be fed by its
own automatic transfer switch (assuming maximum demand <150 KVA) which in turn is
supplied by both the primary and alternative power sources. The transfer switches must
have the capability to shut-off its respective branch if the generator cannot handle the
current demand of the entire system. Furthermore, the equipment branch must “shed” its
44
Phil Mackey
HC
FINAL REPORT
HOLY CROSS HOSPITAL – NORTH ADDITION
load before the critical branch and the critical branch must shed its load before the life
safety. The requirements for each emergency branch and what types of loads are
permitted are also outlined in Article 517 in detail. In brief, the life safety branch
consists of emergency lighting, automatic doors, and any power required to egress people
from the building. The critical branch consists of lighting, receptacle, and medical
equipment loads essential in the care and well-being of patients where lives would be
threatened if power was interrupted. The equipment branch consists of the mechanical
equipment loads essential to the operation of critical care areas in the hospital.
Also outlined in Article 517, the addition of non-emergency loads (normal
branch) are permitted to connect to the generator equipment if that branch is connected
via an automatic transfer switch that will shed first in the priority order of transfer
switches.
Assumptions
Again, when sizing the existing loads for each Panelboard throughout the system,
I had to make a lot of assumptions concerning the known equipment loads. With the
assistance of the engineers at Leach Wallace, I assigned load values to these various
amounts of equipment. From these assumptions, many of my panels were determined to
be loaded past their rated capacity. With respects to the system components I was
redesigning and resizing, I accounted for the calculated demand loads determined when
surveying the existing system. For simplicity’s sake however, I did not resize equipment
previously designed and not being touched by my alternates. I am confident the original
design was sized correctly and properly and the error was most likely in the many
assumptions made concerning equipment loads. Therefore, seemingly undersized
equipment as noted was not overlooked but considered and left intact.
Since I am ultimately comparing the cost of the alternate compared with the
original design, the direct analysis between the two systems will be hard to accurately
portray. Since I do not have all the information for the various other additions and
existing power demand, I will not be able to estimate the reduction in size of the initial
redesign of the new generator set and associated paralleling switchgear. Therefore, I will
not be able to incorporate the deletion or downsizing of any generator set equipment
associated with the isolation of the North Addition demand.
45
Phil Mackey
HC
FINAL REPORT
Phil Mackey
HOLY CROSS HOSPITAL – NORTH ADDITION
Electrical Schematics
Existing Electrical Distribution Configuration:
EX. EMERGENCY
GENERATOR SETS
ATS-1
SUBSTATION D
ATS-3
ATS-2
NORMAL
BRANCH
LIFE
SAFETY
BRANCH
CRITICAL
BRANCH
EQUIPMENT
BRANCH
EMERGENCY BRANCHES
Refer to one-line diagram inserts for details of existing and proposed changes to the entire system
Figure 22: Alternate 2 Existing Design Schematic
46
HC
FINAL REPORT
Phil Mackey
HOLY CROSS HOSPITAL – NORTH ADDITION
Proposed Electrical Distribution Configuration:
ISOLATED EMERGENCY
GENERATOR
SUBSTATION D
ATS-1
ATS-2
ATS-3
ATS-4
LIFE
SAFETY
BRANCH
CRITICAL
BRANCH
EQUIPMENT
BRANCH
NORMAL
BRANCH
EMERGENCY BRANCHES
Refer to one-line diagram inserts for details of existing and proposed changes to the entire system
Figure 23: Alternate 2 Proposed Design Schematic
47
HC
FINAL REPORT
Phil Mackey
HOLY CROSS HOSPITAL – NORTH ADDITION
Feeder Schedules
Feeder Schedule - Existing
Feeder
Number
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
Serving
Served From
PANEL ME1L-N
PANEL E2L-3N
PANEL E1L-1N
XFMR T-5
PANEL E1P-1N
PANEL E1L-2N
XFMR T-6
PANEL E2P-2N
PANEL E1L-3N
XFMR T-7
PANEL E1P-3N
XFMR T-8
PANEL E2P-3N
PANEL E1L-4N
PANEL E3L-N
E6ATS
E6ATS
PANEL E6L-N-ELEV
XFMR T-8
PANEL E3P-N
PANEL E2L-2N
EX. PANEL ME1L-ED
EX. PANEL E2L-3A
PANEL ME1L-N
PANEL E1L-1N
XFMR T-5
PANEL ME1L-N
PANEL E2L-2N
XFMR T-6
PANEL ME1L-N
PANEL E1L-3N
XFMR T-7
PANEL E2L-3N
XFMR T-8
PANEL ME1L-N
EX. PANEL ME3L-ED
EX. PANEL EMDP-ED
PANEL MDP-N
E6ATS
PANEL E3L-N
XFMR T-8
PANEL E2L-3N
EX. PARALLELING
EX. PANEL EMDP-ED
SWITCHGEAR
PANEL MDP-N
EX. SUBSTATION D
EX. E1ATS
EX. SUBSTATION D
EX. E1ATS
EX. PANEL EMDP-ED
EX. PANEL ME1L-ED
EX. E1ATS
EX. SUBSTATION D
Conduit
Wire
2"
1 1/4"
3/4"
3/4"
3/4"
3/4"
3/4"
3/4"
3/4"
3/4"
3/4"
3/4"
1 1/4"
3/4"
3"
2"
2"
2"
3/4"
1 1/4"
3/4"
4#1/0
4#4
4#8
3#10
4#8
4#8
3#10
4#8
4#8
3#10
4#8
3#8
4#3
4#8
4#350
3#2/0
3#4/0
3#4/0
3#6
4#2
4#8
3 SETS
4#500MCM
3 SETS
4#400MCM
4#4/0
4#4/0
4#4/0
2 SETS
4#350MCM
2 SETS
4#350MCM
2 SETS
4#350MCM
4#1/0
3#4
4#1/0
4#1/0
3#4
4#1/0
4#1/0
3#4
4#1/0
4#3/0
3#1
4#4/0
4#6
3#4
4#1/0
4#10
3#4
4#1/0
(3) 3"
(3) 3 1/2"
2 1/2"
2 1/2"
2 1/2"
27
EX. E3ATS
(2) 2 1/2"
28
EX. E3ATS
29
EX. PANEL ME3L-ED
EX. E3ATS
(2) 2 1/2"
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
LP-4N
XFMR T-4
PP-4N
LP-3N
XFMR T-3
PP-3N
LP-2N
XFMR T-2
PP-2N
LP-1N
XFMR T-11
HCK
XP
XFMR T-1
PP-1N
DIM
XFMR T-9
PP-1N1
MDP-N
LP-4N
XFMR T-4
MDP-N
LP-3N
XFMR T-3
MDP-N
LP-2N
XFMR T-2
MDP-N
LP-1N
XFMR T-11
LP-1N
LP-1N
XFMR T-1
LP-1N
LP-1N
XFMR T-9
1 1/2"
1"
1 1/2"
1 1/2"
1"
1 1/2"
1 1/2"
1"
1 1/2"
2"
1 1/2"
2 1/2"
1"
1"
1 1/2"
3/4"
1"
1 1/2"
EX. PANEL EMDP-ED (2) 2 1/2"
48
Ground Amperage
Connected
Wire
Load
Ampacity
230 A
59.3 A
125 A
59.0 A
70 A
26.1 A
50 A
11.8 A
70 A
27.3 A
70 A
14.3 A
50 A
16.0 A
70 A
37.0 A
70 A
16.1 A
50 A
2.4 A
70 A
5.4 A
50 A
36.3 A
145 A
83.8 A
50 A
12.9 A
505 A
205.3 A
265 A
21.9 A
360 A
21.9 A
360 A
50.5 A
95 A
37.0 A
170 A
85.5 A
70 A
20.5 A
1#4
1#6
1#10
1#10
1#10
1#10
1#10
1#10
1#10
1#10
1#10
1#10
1#8
1#10
1#1
1#6
1#4
1#4
1#8
1#8
1/#10
100 A
75 A
50 A
15 KVA
50 A
50 A
15 KVA
50 A
50 A
15 KVA
50 A
30 KVA
100 A
50 A
250 A
110 A
225 A
225 A
30 KVA
100 A
50 A
3#2/0
1000 A
1860 A
-
3#3/0
800 A
1635 A
-
1#4
1#4
1#4
225 A
225 A
225 A
360 A
360 A
360 A
-
2#1
600 A
1010 A
-
2#1
600 A
1010 A
-
2#1
600 A
1010 A
-
#6
#8
#6
#6
#8
#6
#6
#8
#6
#6
#8
#4
#10
#8
#6
#10
#8
#6
150 A
45 KVA
150 A
150 A
45 KVA
150 A
150 A
45 KVA
150 A
200 A
75 KVA
200 A
60 A
45 KVA
150 A
30 A
45 KVA
150 A
150 A
85 A
150 A
150 A
85 A
150 A
150 A
85 A
150 A
230 A
150 A
200 A
65 A
85 A
150 A
30 A
85 A
150 A
26.0 A
13.9 A
32.2 A
80.6 A
65 A
150 A
84.7 A
64.2 A
148.2 A
277.6 A
24.2 A
55.8 A
53.6 A
72.8 A
168 A
30 A
78.1 A
180 A
HC
FINAL REPORT
Phil Mackey
HOLY CROSS HOSPITAL – NORTH ADDITION
Feeder Schedule - Alternates
Feeder
Number
Serving
Served From
Conduit
1N
XFMR T-L
MDP-N
(2) 1 1/2"
2N
3N
4N
5N
6N
7N
8N
MDP-L
PP-4N
PP-3N
PP-2N
HCK
PP-1N
PP-1N1
XFMR T-L
MDP-L
MDP-L
MDP-L
MDP-L
MDP-L
MDP-L
(3) 2 1/2"
1 1/2"
1 1/2"
1 1/2"
2 1/2"
1 1/2"
2"
9N
EMDP
GENERATOR
(4) 3"
10N
11N
12N
13N
14N
ATS-4
E6ATS
ATS-2
ATS-3
ATS-1
EMDP
EMDP
EMDP
EMDP
EMDP
(3) 2 1/2"
2"
1 1/4"
2 1/2"
1 1/4"
15N
16N
17N
18N
MDP-N
E2L-3N
E3L-N
ME1L-N
ATS-4
ATS-2
ATS-3
ATS-1
(3) 2 1/2"
1 1/4"
2 1/2"
1 1/2"
19N
20N
21N
22N
23N
ATS-4
ATS-3
E6ATS
ATS-2
ATS-1
SUBSTAT.
SUBSTAT.
SUBSTAT.
SUBSTAT.
SUBSTAT.
D
D
D
D
D
(3) 2 1/2"
2 1/2"
2"
1 1/4"
1 1/2"
Wire
2 SETS
3#1/0
3 SETS
4#300MCM
4#1/0
4#1/0
4#1/0
4#4/0
4#1/0
4#3/0
4 SETS
4#400
3 SETS
4#300MCM
3#4/0
4#3
4#250MCM
4#3
3 SETS
4#350MCM
4#2
4#300MCM
4#1
3 SETS
#350MCM
4#300MCM
3#4/0
4#2
4#1
Ground Amperage
(2) #6
200 KVA
(3) #2
#6
#6
#6
#2
#6
#4
800
150
150
150
200
150
150
A
A
A
A
A
A
A
4#1/0
1200 A
Connected
Wire
Load
Ampacity
300 A
855
150
150
150
230
150
200
279 A
A
A
A
A
A
A
A
644 A
32.2 A
150 A
148.2 A
55.8 A
168 A
180 A
1340 A
1035 A
3#2
#4
#8
#2
#8
800
225
100
250
100
A
A
A
A
A
855
230
100
255
100
A
A
A
A
A
723 A
50.5 A
52.5 A
205.3 A
59.3 A
3#2
#8
#2
#6
800
100
250
100
A
A
A
A
930
130
285
130
A
A
A
A
723 A
52.5 A
205.3 A
59.3 A
3#2
#2
#4
#8
#6
800
250
225
100
100
A
A
A
A
A
930
285
230
115
130
A
A
A
A
A
723 A
205.3 A
50.5 A
52.5 A
59.3 A
-
denotes upsized feeder to shown size due to voltage drop
-
denotes demand load larger than equipment rating (see “Assumptions” above)
Generator Design
To determine the proper size generator needed for Alternate 2, I enlisted the help
of Cummins Power Generation’s generator sizing program: Power Suite v. 4.0. To
properly determine the size of generator needed, all loads have to be inputted into the
software (based on load type and load demand) and assigned to a specific sequence
determined by the operator. In this case, I used 4 steps to mirror each transfer switch
being used. The software determined the running load to be 744.1 KW and the effective
step KW to be 629.5 KW. These values correspond to a single 750 KW generator
(Product #750DFGE) to be the best fit for this particular application. Therefore, I will be
utilizing a single 480Y/277V 3-phase 750 KW generator to provide emergency power to
the North Addition.
49
HC
FINAL REPORT
Phil Mackey
HOLY CROSS HOSPITAL – NORTH ADDITION
Electrical Equipment Schedules
To determine the financial impact of the proposed change stated above, I first had
to determine what components I would be deleting from the initial design to
accommodate for the new changes. The following table summarizes these deletions:
Electrical Cost Analysis - Deleted System Components
(Existing)
Feeder
Equipment Type
Name
FEEDER
#1
FEEDER
FEEDER
#2
#3
FEEDER
#35
FEEDER
#36
Size
Rating (A)
Ground
Conduit
Size
Length (ft)
1005
(3) #1/0
(3) 3 1/2"
500
150
85
#4
#6
2"
1 1/4"
500
500
310
#1
3"
500
175
#6
2"
40
3 SETS (4)
#400 MCM
(4) #1/0
(4) #4
(4) #350
MCM
(3) #2/0
Similarly, I needed to determine what components I would be adding to the current
system. The following table summarizes those additions:
Electrical Cost Analysis - Added System Components (Proposed)
Panelboard
Equipment Type
PANEL
FEEDER
FEEDER
Name
EMDP
Load
Connected
(A)
828
Feeder
Rating
(A)
# Poles
Spaces
Voltage
Protection
(A)
1200
3
24
480Y/277
1000
Name
ATS-1
ATS-2
Size
(4) #1
(4) #2
(4) #300
ATS-3
MCM
3 SETS (4)
ATS-4
#300 MCM
EATS-1
(4) #3
EATS-2
(4) #3
(4) #250
EATS-3
MCM
3 SETS (4)
EATS-4
#300 MCM
4 SETS (4)
EMDP
#400 MCM
E6ATS (E) (3) #2/0
E6ATS (N) (3) #2/0
FEEDER
FEEDER
FEEDER
FEEDER
FEEDER
FEEDER
FEEDER
FEEDER
FEEDER
CIRCUIT BREAKER
CIRCUIT BREAKER
CIRCUIT BREAKER
CIRCUIT BREAKER
PARALLELING
SWITCHGEAR
51
Rating (A)
Ground
Conduit
Size
Length (ft)
130
115
#8
#8
1 1/2"
1 1/4"
500
500
285
#2
2 1/2"
500
855
(3) #2
(3) 2 1/2"
500
100
100
#8
#8
1 1/4"
1 1/4"
20
35
255
#2
2 1/2"
20
855
(3) #2
(3) 2 1/2"
20
1340
(3) #1/0
(3) 3 1/2"
500
175
175
#6
#6
2"
2"
40
40
HC
FINAL REPORT
Phil Mackey
HOLY CROSS HOSPITAL – NORTH ADDITION
Electrical Cost Analysis - Added Cont'd (Proposed)
Automatic Transfer Switch
Equipment Type
Circuit Breaker
Name
Rating
(A)
Priority
Voltage
Phase
ATS-1
ATS-2
ATS-3
ATS-4
100
100
250
800
1
2
3
4
480Y/277
480Y/277
480Y/277
480Y/277
3
3
3
3
Feeding
Size (A)
Phase
Voltage
EMDP
1200
3
480Y/277
PANEL
FEEDER
FEEDER
FEEDER
FEEDER
FEEDER
FEEDER
FEEDER
FEEDER
FEEDER
FEEDER
FEEDER
CIRCUIT BREAKER
CIRCUIT BREAKER
CIRCUIT BREAKER
CIRCUIT BREAKER
PARALLELING
SWITCHGEAR
52
HC
FINAL REPORT
Phil Mackey
HOLY CROSS HOSPITAL – NORTH ADDITION
Voltage Drop Calculations
Since my proposed redesign deals with some significantly long feeder runs, I had
to make sure the voltage drop for the feeders did not exceed 2% as recommended by
NEC Article 215.2 (A) (4). The following table summarizes the voltage drop
calculations and what wires were resized to maintain a 2% drop or less:
Voltage Drop Calculations - Alt. 2
Feeder
Size
VL-N
Amperage
Length
Factor
ATS-1
ATS-2
ATS-3
#1
#2
#300 MCM
(3) #350
MCM
#3
#3
#250 MCM
(3) #300
MCM
(4) #400
MCM
277
277
277
59
52.5
205
500
500
500
0.156
0.196
0.0545
Vdrop
Factor*
4.602
5.145
5.586
277
241
500
0.047
5.664
2.04
277
277
277
59
52.5
205
20
35
20
0.2495
0.2495
0.062
0.294
0.458
0.254
0.11
0.17
0.09
277
241
20
0.0545
0.263
0.09
277
259
500
0.043
5.563
2.01
ATS-4
EATS-1
EATS-2
EATS-3
EATS-4
EMDP
% Vdrop
1.66
1.86
2.02
E6ATS(E)
#2/0
277
50.5
40
0.104
0.210
0.08
E6ATS(N)
#2/0
277
50.5
40
0.104
0.210
0.08
* Assumed a P.F. of 0.95
- denotes upsized feeder to shown size due to voltage drop
Pricing
Since I will be discussing my detailed cost analysis in the following section
(Construction Management Breadth), I will briefly summarize my results that can be
investigated further in my breadth work.
Existing System Credits =
$73,232
Proposed System Changes = $426,547
Total Increased Budget = $353,315
53
HC
FINAL REPORT
HOLY CROSS HOSPITAL – NORTH ADDITION
Conclusions
Since Alternate 2 is not as straight forward as Alternate 1, I cannot necessarily
recommend the addition or declination of the alternate. Although it would cost the client
approximately $353,000 more than the existing system, the net cost (including the credits
given for an overall smaller generator set for the rest of the hospital) would be less. From
the information I could gather, I was not able to determine all the cost savings in isolating
the North Addition from the rest of the hospital because I was unable to determine the
existing hospital demand and associated downsizing of the designed generator set.
However, $353,000 would be a 15% increase in the entire project’s electrical budget,
assuming the electrical portion of the MEP Budget ($7.8 million) is 30% (as quoted by
Leach Wallace). Therefore, the proposed changes to the alternative power supply can be
considered a reasonable alternative for the client to consider, but would ultimately have
to be their choice depending upon their degree of necessity for power isolation.
54
Phil Mackey
HC
FINAL REPORT
HOLY CROSS HOSPITAL – NORTH ADDITION
Construction Management Breadth
Introduction
With such a significant change to the electrical distribution system concerning
Alternate 2, I wanted to further investigate the impact these changes would have on the
construction end of the project. In doing so, I will address several different areas that
might be affected by such a change to the overall system.
Goal
I will determine the cost impact, scheduling impact, and additional considerations
that will aid in a smooth delivery and installation for Alternate 2. This should give the
client a more accurate view of how the proposed change would impact the entire project.
Assumptions
ƒ
ƒ
ƒ
ƒ
ƒ
Space exists adjacent to the current boiler room (with pad already poured) for the
addition of a new 750 KW generator. This boiler room expansion was previously
finished on a recent infrastructure project.
Feeders from the new generator to the main distribution panel in the North Addition
are 500 ft.
Feeders from the existing Substation D to the main distribution panel in the North
Addition are 500 ft.
Existing circuit breakers feeding panels in North Addition will be used in new
distribution panel as needed.
No additional labor costs to install ground wires. This is included in the price for
pulling the feeder.
55
Phil Mackey
HC
FINAL REPORT
Phil Mackey
HOLY CROSS HOSPITAL – NORTH ADDITION
Pricing
With the help of a local electrical distributor, I priced the material and labor costs
for both the credits and additional costs associated with the above changes to the current
normal distribution system. The following table summarizes the credits associated with
the deleted components:
System Component Pricing - Alt. 2 Credits
Equipment Type
FEEDER (12 #400 MCM)
FEEDER (3 #1/0)
EMT (3 3 1/2")
FEEDER (4 #1/0)
FEEDER (#4)
EMT (2")
FEEDER (4 #4)
FEEDER (#6)
EMT (1 1/4")
FEEDER (4 #350 MCM)
FEEDER (#1)
EMT (3")
FEEDER (3 #2/0)
FEEDER (#6)
EMT (2")
Product Number
Electrical
Electrical
Electrical
Electrical
Electrical
Electrical
Electrical
Electrical
Electrical
Electrical
Electrical
Electrical
Electrical
Electrical
Electrical
Contractor
Contractor
Contractor
Contractor
Contractor
Contractor
Contractor
Contractor
Contractor
Contractor
Contractor
Contractor
Contractor
Contractor
Contractor
Quantity
500
500
500
500
500
500
500
500
500
500
500
500
40
40
40
Material
Cost
$33,600.00
$2,370.00
$8,449.50
$3,160.00
$320.00
$1,725.00
$1,280.00
$225.00
$674.50
$9,760.00
$700.00
$1,892.50
$223.20
$18.00
$138.00
56
Labor
Quantity
30
40
30
40
30
40
30
40
2.4
3.2
Labor Cost
($/hr)
$30.45
$30.45
$30.45
$30.45
$30.45
$30.45
$30.45
$30.45
$30.45
$30.45
Total Labor
Cost
$913.50
$1,218.00
$913.50
$1,218.00
$913.50
$1,218.00
$913.50
$1,218.00
$73.08
$97.44
Total Credits:
Total Cost
$34,513.50
$2,370.00
$9,667.50
$4,073.50
$320.00
$2,943.00
$2,193.50
$225.00
$1,892.50
$10,673.50
$700.00
$3,110.50
$296.28
$18.00
$235.44
$73,232.22
HC
FINAL REPORT
Phil Mackey
HOLY CROSS HOSPITAL – NORTH ADDITION
After I had determined the financial impact of my proposed deleted components, I
determined the impact of my proposed additions to the system in the following table:
System Component Pricing - Alt. 2 Additions
Equipment Type
Product Number
Quantity
PANEL EMDP
FEEDER (4 #1)
FEEDER (#6)
EMT ( 1 1/2")
FEEDER (4 #2)
FEEDER (#8)
EMT (1 1/4")
FEEDER (4 #300 MCM)
FEEDER (#2)
EMT (2 1/2")
FEEDER (12 #350 MCM)
FEEDER (3 #2)
EMT (3 2 1/2")
FEEDER (4 #3)
FEEDER (#8)
EMT (1 1/4")
FEEDER (4 #3)
FEEDER (#8)
EMT (1 1/4")
FEEDER (4 #250 MCM)
FEEDER (#2)
EMT (2 1/2")
FEEDER (12 #300 MCM)
FEEDER (3 #2)
EMT (3 2 1/2")
FEEDER (16 #400 MCM)
FEEDER (4 #1/0)
EMT (3 3 1/2")
FEEDER (3 #2/0)
FEEDER (#6)
EMT (2")
FEEDER (3 #2/0)
FEEDER (#6)
EMT (2")
ATS-1
ATS-2
ATS-3
ATS-4
GENERATOR (all inclusive)
Eaton Elec. (pg. 27)
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Electrical Contractor
Cummins
Cummins
Cummins
Cummins
Cummins
1
500
500
500
500
500
500
500
500
500
500
500
500
20
20
20
35
35
35
20
20
20
20
20
20
500
500
500
40
40
40
40
40
40
1
1
1
1
1
Material
Labor
Cost
Quantity
$18,302.00
8
$2,800.00
30
$225.00
$824.50
40
$2,200.00
30
$150.00
$674.50
40
$8,320.00
30
$550.00
$1,507.00
40
$29,280.00
30
$1,650.00
$4,521.00
40
$57.60
1.2
$6.00
$26.98
1.6
$100.80
2.1
$10.50
$47.22
2.8
$280.00
1.2
$22.00
$60.28
1.6
$998.40
1.2
$66.00
$180.84
1.6
$44,800.00
30
$3,160.00
$8,449.50
40
$223.20
2.4
$18.00
$138.00
3.2
$223.20
2.4
$18.00
$138.00
3.2
$9,000.00
$9,000.00
$14,000.00
$28,000.00
$220,000.00
160
57
Labor Cost
($/hr)
$30.45
$30.45
$30.45
$30.45
$30.45
$30.45
$30.45
$30.45
$30.45
$30.45
$30.45
$30.45
$30.45
$30.45
$30.45
$30.45
$30.45
$30.45
$30.45
$30.45
$30.45
$30.45
$30.45
$30.45
$30.45
$30.45
$30.45
$30.45
Total Labor
Total Cost
Cost
$243.60
$18,545.60
$913.50
$3,713.50
$225.00
$1,218.00
$2,042.50
$913.50
$3,113.50
$150.00
$1,218.00
$1,892.50
$913.50
$9,233.50
$550.00
$1,218.00
$2,725.00
$913.50
$30,193.50
$1,650.00
$1,218.00
$5,739.00
$36.54
$94.14
$6.00
$48.72
$75.70
$63.95
$164.75
$10.50
$85.26
$132.48
$36.54
$316.54
$22.00
$48.72
$109.00
$36.54
$1,034.94
$66.00
$48.72
$229.56
$913.50
$45,713.50
$3,160.00
$1,218.00
$9,667.50
$73.08
$296.28
$18.00
$97.44
$235.44
$73.08
$296.28
$18.00
$97.44
$235.44
$0.00
$9,000.00
$0.00
$9,000.00
$0.00
$14,000.00
$0.00
$28,000.00
$4,872.00
$224,872.00
Total Costs: $426,547.64
HC
FINAL REPORT
HOLY CROSS HOSPITAL – NORTH ADDITION
Notes:
1. Material prices were obtained from Hite Electric (Altoona, PA) and Lowe’s of State
College
2. Electrician Labor Cost was obtained for the Washington, D.C. area from Leach
Wallace Assoc.
3. Labor productivity was quoted by Hite Electric (Altoona, PA) and consists of the
following:
ƒ Lay 100’ conduit: 1 person, 8 hrs
ƒ Pull 100’ (3-phase) wire: 2 people, 3 hrs
ƒ Install small (<45 KVA) transformer: 2 people, 3 days (includes all
connections)
ƒ Install large (>45 KVA) transformer: 2 people, 5 days (includes all
connections)
ƒ 42 pole Panelboard: 1 person, 2 hours (not including connections)
ƒ Circuit Breaker/Circuit connections: 1 person, 1 hr each
ƒ No additional labor costs to install ground wires. This is included in the price
for pulling the feeder.
4. Generator was priced by Sebastian Theberge (Cummins Power Generation) and
includes the following in the price:
ƒ Outdoor type 750 KW generator
ƒ 2500 gallon base tank
ƒ Generator enclosure
ƒ Fuel tank
ƒ Exhaust system
ƒ Outdoor rated circuit breaker
Scheduling
Although I do not have detailed information concerning the entire scheduling of
the project, I wanted to know roughly how many man-hours I was adding to the overall
project. Comparing the man-hours calculated above for the cost analysis, I determined
approximately 260 additional man-hours would be needed for the proposed changes in
Alternate 2. Assuming at least a 6 man electrical crew, that would equate to an additional
6 days of work on the project neglecting any lead-time for the generator or any other
major equipment. Again, I am also assuming not all of the work is on the critical path.
Even if the 6 days are on the critical path, this is in comparison to a 345 day schedule.
Although extending the project completion a couple days is not the most favorable
situation, 6 days is only a 1.7% increase in total scheduling, and that is the worst case
scenario.
58
Phil Mackey
HC
FINAL REPORT
HOLY CROSS HOSPITAL – NORTH ADDITION
Additional Considerations
The following items should be considered and discussed in detail when preparing
for the project start date as to not neglect key coordination issues:
ƒ
ƒ
ƒ
ƒ
ƒ
ƒ
Lead time for big equipment - generator, automatic transfer switches, main
distribution panel and main circuit breakers.
MEP Coordination in boiler plant – extensive amounts of equipment get packed
into boiler plants and sequencing work in this tightly packed area is critical to project
efficiency.
Crane access – a crane will be needed to lift and set the new generator and associated
equipment. With such a packed site so close to the beltway, extra care must be taken
in the placement and timing of the crane operation.
Location of generator – Since the hospital is so close to residential surroundings,
placement of the generator is critical as to not create too much noise for surrounding
neighbors.
Below grade feeder installation – Since multiple projects will be running so close to
each other, coordination of running the feeders by the electrical contractors before the
footers and slabs on grade are poured by the concrete subcontractors is crucial to the
efficiency of the project.
Commissioning of system – Since there are so many regulations governing the
installation and implementation of hospital emergency power supply, proper
commissioning of the emergency generator and all associated equipment must be
ensured well before any patients visit the new wing.
Conclusions
As stated in the Electrical Depth portion of this report, the comparison of the
existing system to the proposed change is not as simple as choosing the cheapest system.
The proposed change would increase the budget by $353,000 (15% of the current
electrical budget), a pretty sizeable amount. However, the change would also not
increase the schedule significantly. Most importantly, the need of the client for isolation
of the North Addition must be considered and weighed into the equation. The proposed
changes to the alternative power supply can be considered a reasonable alternative for the
client to consider. Ultimately, Alternate 2 would be presented as an alternative to the
existing emergency system and the final decision would be up to the owner.
59
Phil Mackey
HC
FINAL REPORT
HOLY CROSS HOSPITAL – NORTH ADDITION
Mechanical Breadth
Introduction
Due to the addition and deletion of several transformers in each electrical room, I
will be resizing the required cfm and all associated ductwork and VAV boxes. Although
not detailed here, this should save the hospital money by decreasing the duct sizes and
VAV boxes in most cases.
Goal
I will determine the impact Alternate 1 of the Electrical Depth has on the
mechanical system in all four electrical rooms of the North Addition.
Assumptions
ƒ
ƒ
ƒ
ƒ
ƒ
ƒ
ƒ
2% energy loss for all transformers
Design for duct loss of 0.10 friction/100ft
Use round duct 6” or below when possible
Design temperature for room is 75° F
Inlet temperature is 55° F
All VAV boxes are DESV (digital control)
Power Factor = 0.90
Calculations
Using the equation for sensible heat:
Q = 1.08*CFM*∆T
60
Phil Mackey
HC
FINAL REPORT
HOLY CROSS HOSPITAL – NORTH ADDITION
I determined the sensible heat gain for each transformer as shown in the table below:
Heat Gain Calculations
Room
Elec. Rm - 1st Floor
Elec. Rm - 2nd Floor
Elec. Rm - 3rd Floor
Elec. Rm - 4th Floor
Transformer
Heat Gain
Designation Size (KVA) Gain (W) (BTU-hr)
T-1
45
810
2764
T-5
15
270
921
T-9
45
810
2764
T-11
75
1350
4606
T-2
45
810
2764
T-6
15
270
921
T-L
225
4050
13819
T-3
45
810
2764
T-7
15
270
921
T-8
30
540
1843
T-4
45
810
2764
-
denotes deleted transformer
-
denotes added transformer
From that information, I could determine the new CFM required in each room and
compare the results to the designed CFM:
CFM Calculations
Room
Elec.
Elec.
Elec.
Elec.
Rm
Rm
Rm
Rm
-
1st Floor
2nd Floor
3rd Floor
4th Floor
Initial
Sensible
Load
CFM
(BTU-hr)
11055
215
3685
215
5528
95
2764
145
Corrected
Sensible
Load
CFM
(BTU- hr)
921
45
14740
650
2764
145
0
*45
* Room will be designed for 45 CFM since anticipated growth will require an
additional emergency transformer on that floor (it is currently a shell and not fitout for its desired use at the present time).
61
Phil Mackey
HC
FINAL REPORT
HOLY CROSS HOSPITAL – NORTH ADDITION
From the Leach Wallace standards and Titus Catalog for VAV box design, the
following size VAV boxes are typically specified with the characteristics shown:
Size 4 box: 0-100 CFM max
45 CFM min
Size 5 box: 100-300 CFM max
65 CFM min
Size 6 box: 300 – 650 CFM max
105 CFM min
VAV Box Sizing
Elec.
Elec.
Elec.
Elec.
Rm
Rm
Rm
Rm
Room
CFM
Box Size
-
45
650
145
45
4
6
5
4
1st Floor
2nd Floor
3rd Floor
4th Floor
Air Flow
Max
Min
100
*0
650
*0
145
*0
100
*0
* All VAV boxes are specified as 0 shut-off
To size the duct, I used TRANE Company Commercial Application “Ductulator”. The
Ductulator gave me an air flow rate and size of duct when friction loss (stated above in
the assumptions) and max CFM are input. The following table summarizes the duct
sizing:
Duct Sizing
Elec.
Elec.
Elec.
Elec.
Rm
Rm
Rm
Rm
Room
CFM
-
45
650
145
45
1st Floor
2nd Floor
3rd Floor
4th Floor
Air
Duct Size Speed*
(ft/min)
4" Ф
550
12"x10"
850
6" Ф
650
4" Ф
550
* 500-900 ft/min is typically a safe range for air speed, but this value can
vary depending on the size of the duct (the larger the duct, the faster
tolerable air speed).
62
Phil Mackey
HC
FINAL REPORT
HOLY CROSS HOSPITAL – NORTH ADDITION
Conclusions
The mechanical redesign seems to be an overall success. Only one VAV box and
associated ductwork needed to be upsized to accommodate for the addition of the 225
KVA transformer in the 2nd floor electrical room. The rest of the VAV boxes were
downsized as well as their associated supply and return air ducts. However, I do not
expect much of a savings with this change due to the shear magnitude of the project
compared to this small analysis.
63
Phil Mackey
FINAL REPORT
HC
HOLY CROSS HOSPITAL – NORTH ADDITION
Report Conclusions
The goals set forth for the redesign of various lighting, electrical, and other
architectural engineered systems was a success. I was able to create a lighting design that
was both aesthetically pleasing and efficient. Both lighting spaces had improved
performance, lowering power densities and increasing light levels where needed. Not
only was the quantity of light increased, but the quality of light in each space was
improved by the implementation of less obtrusive fixtures visually as well as the use of
fixtures with better quality light distribution for the given space geometry. By
researching the existing conditions and determining possible areas for further
investigation, I was able to focus my design concepts on the critical aspects and functions
of the space. Pairing these concepts with the design criteria set forth by the IESNA
Handbook, I was able to most effectively design the space for the functions it must
facilitate.
Since a hospital relies so heavily on consistent and effective power supply and
distribution, I then investigated two alternate solutions to the existing electrical design to
compare the feasibility of either to the existing design. Ultimately, I found the existing
design was most advantageous for the client over the two proposed alternatives.
However, I was able to present an alternate solution to the problem of emergency
generator design and distribution if the client was interested in emergency power
isolation from the rest of the hospital. As the hospital grows, the client may want to
begin segmenting their emergency power back-up system and will have prior knowledge
of the approximate cost and issues associated with such a project.
In this thesis project, I was able to provide stimulating lighting design that
complemented the architectural features and did not compete with them. I also was able
to investigate several alternative power designs and the effectiveness of the alternatives to
the original design presenting valuable information to the client concerning such
alternatives.
64
Phil Mackey
HC
FINAL REPORT
HOLY CROSS HOSPITAL – NORTH ADDITION
References
Lighting
Rea, Mark S., ed. The IESNA Lighting Handbook: Reference & Application.
New York: Illuminating Engineering Society of North America, 2000.
Electrical
2002 National Electric Code. National Fire Protection Assocation, 2002.
Hughes, S. David, Electrical Systems in Buildings. Albany: Delmar Publishers
Inc., 1988.
Square D Digest. Schneider Electric, October 2003.
Power Suite v. 4.0. Cummins Power Generation, 2004. CD-ROM.
65
Phil Mackey
HC
FINAL REPORT
HOLY CROSS HOSPITAL – NORTH ADDITION
Acknowledgements
Professional
Leach Wallace Associates, Inc. and its many employees that dealt with my
numerous emails and phone calls (namely Beth Mattern, Rob Banas, and
Adam Ricky)
John Reese (Reese Engineering Inc.) for his guidance and support with my
electrical redesign
Academic
Dr. Richard Mistrick – Thank you for your continued guidance and support
fielding questions and debugging AGI32
Personal
All Senior Thesis Students – Thanks for the experience, it was nice having
others there going through the same hardships
Roommates – Thanks for dealing with my hermit-like habits this past semester
and helping me through this with comic relief…that was special!
Penn State AE Elders (alumni) – Thanks for the valued advice and consultation
from a much more “thesis-wise” group of individuals
Family and Friends – Thanks for enduring the craziness of this year: not hearing
from me for months at a time, never getting a response to an email,
complete lack of a short-term memory. None of it was intentional, I
promise.
66
Phil Mackey
FINAL REPORT
HC
HOLY CROSS HOSPITAL – NORTH ADDITION
Appendix
Fixture Cutsheets
Phil Mackey
FINAL REPORT
HC
Phil Mackey
HOLY CROSS HOSPITAL – NORTH ADDITION
Lighting Fixture Schedule
Type
A
B1
B2
B3
B4
Description
Manufacturer/Catalog No.
2' X 2' DIRECT/INDIRECT RECESSED, MICRODAYBRITE #2TOCG240-PMW-277PERFORATED MESH DIFFUSER, CENTER
1/2-EB
BASKET, WHITE FINISH, GRID CEILING
4" OPEN DOWNLIGHT, VERTICAL LAMP,
ALUMINUM REFLECTOR AND SELF-FLANGED
GOTHAM #AFV-13DTT-6AR-277
TRIM
4" OPEN DOWNLIGHT, VERTICAL LAMP,
ALUMINUM REFLECTOR AND SELF-FLANGED
GOTHAM #AFV-18TRT-6AR-277
TRIM
6" OPEN DOWNLIGHT, HORIZONTAL LAMP,
ALUMINUM REFLECTOR AND SELF-FLANGED
GOTHAM #AF-1/26TRT-6AR-277
TRIM
6" OPEN DOWNLIGHT, HORIZONTAL LAMP,
ALUMINUM REFLECTOR AND SELF-FLANGED
GOTHAM #AF-1/42TRT-6AR-277
TRIM
Lamps
CCT
Voltage
(2) 40WTT5
3500K
277
(1) CFL13Q
3500K
277
(1) CFL18TRT
3500K
277
(1) CFL26TRT
3500K
277
(1) CFL42TRT
3500K
277
Notes
1
C1
2' RECESSED LINEAR WALLWASH, 2"
APERTURE, BLACK METAL DIFFUSER
PEERLESS #LWAR9-G-1-24T5HOHOL-U2-277
(1) F24T5HO
3500K
277
C2
4' RECESSED LINEAR WALLWASH, 2"
APERTURE, BLACK METAL DIFFUSER
PEERLESS #LWAR9-G-1-28T5-HOLU4-277
(1) F28T5
3500K
277
BERENICE - MEDA & RIZZATTO
1985
(1) 35W GY6.35
3000K
12
ERCO #88111.000
(1) 50W GY6.35
3000K
12
ERCO #72103.000
(1) 75W GY6.35
3000K
12
2
COLOR KINETICS i-COLOR COVE
NXT 6"
INCLUDED
100010000K
120
3,5
COLOR KINETICS i-COLOR COVE
NXT 6"
INCLUDED
100010000K
120
3,4
COLOR KINETICS i-COLOR COVE
NXT 6"
INCLUDED
100010000K
120
3,4
D1
D2
D3
F1
F2
F3
ADJUSTABLE TABLE LAMP, SILVER FINISH,
BLUE GLASS REFLECTOR
4" RECESSED ADJUSTABLE SPOT, BLACK
POWDER-COAT FINISH, WHITE TRIM
ADJUSTABLE WALLWASH SPOT,
TRACK/CEILING MOUNTED, WHITE FINISH,
INTEGRATED ELECTRONIC TRANSFORMER
6" COLOR CHANGING LED COVE STRIP,
COLOR ADJUSTING CAPABILITIES, VENTED
PLASTIC HOUSING
6" COLOR CHANGING LED COVE STRIP,
COLOR ADJUSTING CAPABILITIES, VENTED
PLASTIC HOUSING
6" COLOR CHANGING LED COVE STRIP,
COLOR ADJUSTING CAPABILITIES, VENTED
PLASTIC HOUSING
NOTES:
1. PROVIDE DIMMING BALLAST AS SPEC'D WITH FIXTURE IN APPENDIX A
2. FIXTURE COMES WITH 75W OPTION EVEN THOUGH SPEC SHEET DOES NOT REFLECT THAT
3. INTEGRAL STEP-DOWN TRANSFORMER INCLUDED WITH FIXTURES
4. SEE INCLUDED DETAIL OF FIXTURE FOR MOUNTING SPECIFICS
5. PROVIDE NUMBER OF FIXTURES NEEDED FOR LENGTH SHOWN ON DRAWING
Fixture A
™
2' x 2'
1 or 2 Lamp
Center Basket
Recessed Direct/Indirect
APPLICATION
• Soft white overlay on inside of lamp cover conceals lamp
image and balances between direct and reflected light.
• Easy ballast access through lamp compartment.
• Swing down lamp cover for easy relamping.
•
•
•
•
Recessed direct/indirect luminaire for glare-free illumination.
Fits standard 2' x 2' inverted T-grid (NEMA “G”) opening.
Fully recessed mounting, suitable for row mounting.
Uses standard 2' x 2' ceiling tile (by others) cut in half as top
cover/reflector.
• Ceiling tiles identical to surrounding ceiling can be used to
provide a very integrated appearance.
• Different materials, patterns, or colors can be used to create
accents or architectural features.
• Economical alternative to traditional recessed direct/indirect
luminaires.
ELECTRICAL
CONSTRUCTION/FINISH
• UL listed for damp locations.
• Class P, HPF ballasts comply with E Federal Ballast Law
(public law 100-357, 1988).
• Self contained emergency power pack can be incorporated.
UL listed for dry locations.
• Power-Connect modular wiring option available for
continuous row applications (see sheet 1604-OA).
• Electronic ballast standard for maximum efficiency.
• Delivered assembled with ballast channel, end panels, and
one-piece perforated lamp cover. Ceiling tile to be supplied
by others and installed on site.
• Ballast channel made of code gauge die formed steel.
• Multi-stage phospate treated for maximum corrosion
resistance and finish coat is baked white enamel.
• Micro-perforated, center mounted lamp cover provides soft
awareness to light source.
CATALOG NUMBER
22
TO
TO
C
C
FIXTURE FAMILY
TO– Tenuto
WIDTH
2'
CEILING TYPE
G - Grid
BASKET LOCATION
C – Center
PMW –
– PMW
G
G
LAMP TYPE/WATTAGE
14 – 14wT5 (22")
17 – 17wT8 (24")
24HO – 24wT5HO (22")
CF40 – 40wTT5 (22-1/2")
CF50 – 50wTT5 (22-1/2")
CF55 – 55wTT5 (22-1/2")
NO. OF LAMPS
(not included)
1
2
–
OPTIONS
VOLTAGE
120
277
347 (consult factory
for availability)
UNV - Universal voltage,
120-277 volt (T8
and 40wTT5 only)
SHIELDING
PMW – Perforated Metal
with White Overlay
–
CM – Canadian Market
BALLAST
Generic Electronic Ballasts
(Brand selected by Day-Brite)
Suffix Catalog # with
-EB Lamps Per Ballast.
– Ballast Quantity – /
Example: –1/1-EB = One 1 Lamp Electronic Ballast.
Example: –1/2-EB = One 2 Lamp Electronic Ballast.
JOB INFORMATION
360-AR
Lighting eCatalog - Print LSB Page
Page 1 of 2
Fixture A Lamp
Lighting Specification Bulletin
Plug-in 4-Pin High Lumen Biax®
Product Code: 16648
Description: F40/30BX/SPX35
Specification:
Firm Name :
Job Name :
General
Product Code
16648
Description
F40/30BX/SPX35
Subcategory
Plug-in 4-Pin High Lumen Biax®
Physical
Bulb Type
BiaxL (T5)
Base Type
2G11
Nominal
Length (In.)
22.50
Nominal
Length (mm)
572
Photometric
Average
Rated Life
20000
Lumens
(Initial)
3150
Lumens
(Mean)
2840
Color
Temperature
(K)
3500
Color
Rendering
Index (Ra)
CRI
82
Electrical
Watts
40
Minimum
Starting
Temp (deg F)
50
Miscellaneous
Additional
Information
NEMA Generic Designation:
FT40W/2G11/RS/835
Footnotes
Fluorescent lamp lumens decline during
life.Based on 60Hz reference circuit.4-Pin
lamp minimum starting temperature is a
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Fixture A Ballast
VOP-4P32-SC
Brand Name
Ballast Type
Starting Method
Lamp Connection
Input Voltage
Input Frequency
Status
Electrical Specifications
Lamp Type
Num.
of
Lamp
s
2
3
* F40T8
F40T8
Rated
Lamp
Watts
Min. Start
Temp
(°F/C)
Input
Current
(Amps)
40
40
32/00
32/00
0.30
0.38
Wiring Diagram
WHITE
BLACK
YELLOW
YELLOW
Input
Power
(ANSI
Watts)
81
108
OPTANIUM
Electronic
Instant Start
Parallel
277
50/60 HZ
Active
Ballast
Factor
MAX
THD
%
Power
Factor
MAX Lamp
Current
Crest Factor
B.E.F.
1.03
0.93
10
10
0.98
0.98
1.7
1.7
1.27
0.86
Enclosure
BLUE
BLUE
RED
RED
BALLAST
LAMP
LAMP
LINE
Diag. 71A
Insulate unused
lead for 1000V
The wiring diagram that appears above is
for the lamp type denoted by the asterisk (*)
Enclosure Dimensions
Standard Lead Length (inches)
Black
White
Blue
Red
Yellow
Gray
Violet
in.
25L
25L
31R
31R
39L
cm.
63.5
63.5
78.7
78.7
99.1
0
0
in.
Yellow/Blue
Blue/White
Brown
Orange
Orange/Black
Black/White
Red/White
cm.
0
0
0
0
0
0
0
OverAll (L)
9.50 "
9 1/2
24.1 cm
Width (W)
1.7 "
1 7/10
4.3 cm
Height (H) Mounting (M)
1.18 "
8.90 "
1 9/50
8 9/10
3 cm
22.6 cm
Revised 04/28/2005
Data is based upon tests performed by Advance Transformer in a controlled environment and representative of relative performance. Actual performance
can vary depending on operating conditions. Specifications are subject to change without notice. All specifications are nominal unless otherwise noted.
ADVANCE TRANSFORMER CO.
O'HARE INTERNATIONAL CENTER · 10275 WEST HIGGINS ROAD · ROSEMONT, IL 60018
Customer Support/Technical Service: Phone: 800-372-3331 · Fax: 630-307-3071
Corporate Offices: Phone: 800-322-2086
Fixture B1
FEATURES
OPTICAL
•
•
Reflector – Self-flanged, specular clear or semi-diffuse
reflector. Bounding Ray Optical Principle design provides lamp
before lamp image and smooth transition from top of reflector
to bottom. Minimum flange matches reflector finish. White
painted flange optional. (Vertisys optical system patented – US
Patent #5,800,050)
Type
Catalog number
.............................
.......................................................................................................
.............................
.......................................................................................................
Compact Fluorescent Lighting
4" AFV
Baffle– Specular clear upper reflector. Microgroove baffle with
white painted flange.
MECHANICAL
OPEN REFLECTOR
•
16-gauge galvanized steel mounting/plaster frame with friction
support springs to retain optical system. Accommodates up to
7/8” thick ceiling standard. See Accessories for increased
ceiling thickness capability.
•
Mounting bars are 16-gauge galvanized steel with continuous
4” vertical adjustment, held in place with tool-less, cam-action
locking system. Post installation adjustment possible without the
use of tools from above or below the ceiling. Shipped preinstalled.
•
Galvanized steel junction box with bottom-hinged access
covers and spring latches. Two combination ½”-3/4” and three
½” knockouts for straight-through conduit runs. Capacity: 8 (4
in, 4 out) No. 12 AWG conductors rated for 90°C.
Vertical Lamp
9-3/8 (23.8)
Aperture: 4-5/16 (11)
Ceiling Opening: 5-1/8 (13)
Overlap Trim: 5-7/16 (13.8)
ELECTRICAL SYSTEM
•
Rugged aluminum lampholder housing designed for positive
lamp positioning.
•
Vertically mounted, positive-latch thermoplastic socket.
•
Class P, thermally-protected, high power factor ballast mounted
to the junction box.
15-7/8 (40.3)
LISTING
•
Fixtures are UL Listed for thru-branch wiring, recessed
mounting and damp locations. Listed and labeled to comply with
Canadian Standards (see Options).
13
(33)
All dimensions are inches (centimeters).
Example: AFV
ORDERING INFORMATION
26TRT 4AR 120 GEB10 WLP
Choose the boldface catalog nomenclature that best suits
your needs and write it on the appropriate line.
AFV
Series
AFV
Wattage/Lamp
1
13DTT
2
18TRT
2
26TRT
One 13W
double twintube
One 18W
triple-tube
One 26W
triple-tube
Reflector/
Finish
Color
4AR
4PR
4UBR
4WTR
3
4CR
4GR
4MB
4WB
4BC
3
4
4
4
Clear
Pewter
Umber
Wheat
Champagne
Gold
Gold
Black Baffle
White Baffle
(blank)
LD
Specular low
iridescent
Semi-diffuse
low iridescent
6
Ballast
Voltage
5
MVOLT
120
GEB10
EMB
277
347
Black Cone
NOTES:
1 Available with electromagnetic or electronic ballast.
2 Available with electronic ballast only.
3 Not recommended for use with compact fluorescent lamp; consult factory.
4 Not available with finishes.
5 Multi-volt electronic ballast capable of operating on any line voltage between 120- and 277-volt.
6 Refer to Options and Accessories tab for additional ballast types.
7 Refer to Options and Accessories tab for compatible Reloc systems.
8 Not available with ELR option.
ADEZ
Electronic ballast.
Electromagnetic
ballast.
Advance Mark X
electronic dimming
ballast. 120V or 277V,
26W only. Minimum
dimming level 5%.
Options
WLP
TRW
ELR
GMF
RIF
7
LRC
8
QDS
CSA
With 35°K lamp (shipped
separately).
White painted flange.
Emergency battery pack.
Access above ceiling required.
Remote test switch provided
(consult factory for
dimensional changes).
Single, slow-blow fuse (not
available with MVOLT).
Radio Interference Filter.
Provides compatibility with
Lithonia Reloc System.
Quick Disconnect for easy
ballast replacement.
Listed and labeled to comply
with Canadian Standards.
AFV 4 OPEN
DCF-310
Lighting eCatalog - Print LSB Page
Page 1 of 2
Fixture B1 Lamp
Lighting Specification Bulletin
Plug-in 4-Pin Double Biax®
Product Code: 30037
Description: F13DBX/SPX35/835/4P
Specification:
Firm Name :
Job Name :
General
Product Code
30037
Description
F13DBX/SPX35/4P
Subcategory
Plug-in 4-Pin Double Biax®
Physical
Bulb Type
BiaxD (T4)
Base Type
G24q-1
Max Overall
Length (In.)
4.9
Max Overall
Length (mm)
125
Nominal Length
(In.)
5.00
Nominal Length
(mm)
127
Width of Lamp in
inches
1.1
Depth of Lamp in
inches
1.1
Base Face to Top
of Lamp (In.)
4.4
Lamp Mortality
Photometric
Average Rated
Life
12000
Lumens (Initial)
900
Lumens (Mean)
755
Color
Temperature (K)
3500
Color Rendering
Index (Ra) CRI
82
Nominal Efficacy
(Lumens/Watt)
69
Radial Luminous Intensity Distribution
Electrical
Watts
13
Nominal Lamp
60
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Fixture B1 Ballast
Brand Name
Ballast Type
Starting Method
Lamp Connection
Input Voltage
Input Frequency
Status
Electrical Specifications
Lamp Type
Num.
of
Lamp
s
* CFQ13W/G24Q
1
CFQ13W/G24q
2
CFS10W/GR10q
1
CFS10W/GR10q
2
CFS16W/GR10q
1
CFTR13W/GX24Q
1
CFTR13W/GX24Q
2
Rated
Lamp
Watts
Min. Start
Temp
(°F/C)
Input
Current
(Amps)
13
13
10
10
16
13
13
0/-18
0/-18
0/-18
0/-18
0/-18
0/-18
0/-18
0.13
0.25
0.11
0.19
0.14
0.13
0.25
Wiring Diagram
BLUE
BLACK
WHITE
Input
Power
(ANSI
Watts)
16
29
13
23
17
16
29
SMARTMATE
Electronic
Programmed Start
Series
120-277
50/60 HZ
Active
Ballast
Factor
MAX
THD
%
Power
Factor
MAX Lamp
Current
Crest Factor
B.E.F.
1.00
1.00
1.05
0.95
1.00
1.00
1.00
10
10
14
11
12
10
10
0.96
0.99
0.96
0.97
0.96
0.96
0.99
1.5
1.5
1.5
1.5
1.5
1.5
1.5
6.25
3.45
8.08
4.13
5.88
6.25
3.45
Enclosure
WIRING: (2) LAMPS
LINE
ICF-2S13-H1-LD@120
(1) LAMP
BLUE
BALLAST YELLOW
GREEN
RED
RED
Green Terminal must be Grounded
The wiring diagram that appears above is
for the lamp type denoted by the asterisk (*)
Enclosure Dimensions
Standard Lead Length (inches)
Black
White
Blue
Red
Yellow
Gray
Violet
in.
0.0
0.0
0.0
0.0
0
cm.
in.
Yellow/Blue
Blue/White
Brown
Orange
Orange/Black
Black/White
Red/White
cm.
OverAll (L)
4.98 "
4 49/50
12.6 cm
Width (W)
2.4 "
2 2/5
6.1 cm
Height (H) Mounting (M)
1.0 "
4.6 "
1
4 3/5
2.5 cm
11.7 cm
Revised 09/02/2004
Data is based upon tests performed by Advance Transformer in a controlled environment and representative of relative performance. Actual performance
can vary depending on operating conditions. Specifications are subject to change without notice. All specifications are nominal unless otherwise noted.
ADVANCE TRANSFORMER CO.
O'HARE INTERNATIONAL CENTER · 10275 WEST HIGGINS ROAD · ROSEMONT, IL 60018
Customer Support/Technical Service: Phone: 800-372-3331 · Fax: 630-307-3071
Corporate Offices: Phone: 800-322-2086
Fixture B2
FEATURES
OPTICAL
•
•
Reflector – Self-flanged, specular clear or semi-diffuse
reflector. Bounding Ray Optical Principle design provides lamp
before lamp image and smooth transition from top of reflector
to bottom. Minimum flange matches reflector finish. White
painted flange optional. (Vertisys optical system patented – US
Patent #5,800,050)
Type
Catalog number
.............................
.......................................................................................................
.............................
.......................................................................................................
Compact Fluorescent Lighting
4" AFV
Baffle– Specular clear upper reflector. Microgroove baffle with
white painted flange.
MECHANICAL
OPEN REFLECTOR
•
16-gauge galvanized steel mounting/plaster frame with friction
support springs to retain optical system. Accommodates up to
7/8” thick ceiling standard. See Accessories for increased
ceiling thickness capability.
•
Mounting bars are 16-gauge galvanized steel with continuous
4” vertical adjustment, held in place with tool-less, cam-action
locking system. Post installation adjustment possible without the
use of tools from above or below the ceiling. Shipped preinstalled.
•
Galvanized steel junction box with bottom-hinged access
covers and spring latches. Two combination ½”-3/4” and three
½” knockouts for straight-through conduit runs. Capacity: 8 (4
in, 4 out) No. 12 AWG conductors rated for 90°C.
Vertical Lamp
9-3/8 (23.8)
Aperture: 4-5/16 (11)
Ceiling Opening: 5-1/8 (13)
Overlap Trim: 5-7/16 (13.8)
ELECTRICAL SYSTEM
•
Rugged aluminum lampholder housing designed for positive
lamp positioning.
•
Vertically mounted, positive-latch thermoplastic socket.
•
Class P, thermally-protected, high power factor ballast mounted
to the junction box.
15-7/8 (40.3)
LISTING
•
Fixtures are UL Listed for thru-branch wiring, recessed
mounting and damp locations. Listed and labeled to comply with
Canadian Standards (see Options).
13
(33)
All dimensions are inches (centimeters).
Example: AFV
ORDERING INFORMATION
26TRT 4AR 120 GEB10 WLP
Choose the boldface catalog nomenclature that best suits
your needs and write it on the appropriate line.
AFV
Series
AFV
Wattage/Lamp
1
13DTT
2
18TRT
2
26TRT
One 13W
double twintube
One 18W
triple-tube
One 26W
triple-tube
Reflector/
Finish
Color
4AR
4PR
4UBR
4WTR
3
4CR
4GR
4MB
4WB
4BC
3
4
4
4
Clear
Pewter
Umber
Wheat
Champagne
Gold
Gold
Black Baffle
White Baffle
(blank)
LD
Specular low
iridescent
Semi-diffuse
low iridescent
6
Ballast
Voltage
5
MVOLT
120
GEB10
EMB
277
347
Black Cone
NOTES:
1 Available with electromagnetic or electronic ballast.
2 Available with electronic ballast only.
3 Not recommended for use with compact fluorescent lamp; consult factory.
4 Not available with finishes.
5 Multi-volt electronic ballast capable of operating on any line voltage between 120- and 277-volt.
6 Refer to Options and Accessories tab for additional ballast types.
7 Refer to Options and Accessories tab for compatible Reloc systems.
8 Not available with ELR option.
ADEZ
Electronic ballast.
Electromagnetic
ballast.
Advance Mark X
electronic dimming
ballast. 120V or 277V,
26W only. Minimum
dimming level 5%.
Options
WLP
TRW
ELR
GMF
RIF
7
LRC
8
QDS
CSA
With 35°K lamp (shipped
separately).
White painted flange.
Emergency battery pack.
Access above ceiling required.
Remote test switch provided
(consult factory for
dimensional changes).
Single, slow-blow fuse (not
available with MVOLT).
Radio Interference Filter.
Provides compatibility with
Lithonia Reloc System.
Quick Disconnect for easy
ballast replacement.
Listed and labeled to comply
with Canadian Standards.
AFV 4 OPEN
DCF-310
Lighting eCatalog - Print LSB Page
Page 1 of 2
Fixture B2 Lamp
Lighting Specification Bulletin
Plug-in 4-Pin Triple Biax®
Product Code: 34405
Description: F18TBX/SPX35/835/A/4P
Specification:
Firm Name :
Job Name :
General
Product Code
34405
Description
F18TBX/SPX35/A/4
Subcategory
Plug-in 4-Pin Triple Biax®
Physical
Bulb Type
BiaxT (T4)
Base Type
GX24q-2
Max Overall
Length (In.)
4.8
Max Overall
Length (mm)
122
Nominal Length
(In.)
4.80
Nominal Length
(mm)
122
Width of Lamp in
inches
1.7
Depth of Lamp
in inches
1.7
Base Face to
Top of Lamp
(In.)
4.25
Lamp Mortality
Photometric
Average Rated
Life
12000
Lumens (Initial)
1200
Lumens (Mean)
1010
Color
Temperature (K)
3500
Color Rendering
Index (Ra) CRI
82
Nominal Efficacy
(Lumens/Watt)
67
Radial Luminous Intensity Distribution
Electrical
Watts
18
http://genet.geappliances.com/LightingeCatalog/Dispatcher?REQUEST=PRINTLSB&pcod... 2/2/2006
Fixture B2 Ballast
C218UNVxxx
APPLICATION and PERFORMANCE SPECIFICATION
Description: Electronic compact fluorescent ballast(s) for (2/1) CFQ18W/G24q or (2/1) CFM18W/GX24q
or (2/1) CFS21W/GR10q (2D) 4 pin lamps
• Line Voltage: 120vac or 277vac, ±10%, 50-60Hz
• High Power Factor
Line
Model
C218UNV
C218UNV
C218UNV
C218UNV
C218UNV
Lamp
• Programmed Rapid Start
• Series Lamp Connection
Input
Nominal
Ballast
Power
Volts
Type
#
Watts
Line Amps
Factor
Factor
120
277
120
277
120
277
120
277
120
277
CFQ18W
CFQ18W
CFQ18W
CFQ18W
CFM18W
CFM18W
CFM18W
CFM18W
CFS21W
CFS21W
2
2
1
1
2
2
1
1
2/1
2/1
35
35
19
19
38
38
20
20
43/24
43/24
0.30
0.13
0.16
0.07
0.32
0.14
0.17
0.07
.37/.18
.16/.08
.95
.95
1.00
1.00
1.05
1.05
1.05
1.05
.95/.98
.95/.98
> .98
> .98
> .98
> .95
> .95
> .95
> .95
> .95
> .98
> .95
THD
Crest
Factor
< 10%
< 10%
< 10%
< 15%
< 15%
< 15%
< 15%
< 15%
< 10%
< 15%
<1.5
<1.5
<1.5
<1.5
<1.5
<1.5
<1.5
<1.5
<1.7
<1.7
Application and Performance Specification Information Subject to Change without Notification
Performance:
• Meets ANSI Standard C82.11
• Meets FCC Part 18 (Non-Consumer), Limits for EMI/RFI
• Operating Frequency Range: 50-60 kHz
• Auto-Reset Shutdown Circuit per NEMA Recommendations
- Both lamps should be replaced at end of life
- Lamp relights upon insertion in socket
• Suitable for use in air handling spaces when NEC wiring guidelines are followed
• ME version: Input Terminals L N G intended for one supply connection only
Safety:
• No PCB's
• UL listed (Class P)
Type 1 Outdoor, Type CC, Type HL
• CSA Certified
Application:
• Minimum Starting Temperature:
0° F, -18° C
• Maximum Case Temperature (@ tc):
167° F, 75° C
• Sound Rated:
A
• Lead configuration:
xxx =
SE - Side Exit
or BE - Bottom Exit
or BES - Bottom Exit with Studs (2" on center)
or ME - Multi-Exit Replacement Kit for Distribution
• Remote Mounting
20 feet
• 18W applications also operate on 125VDC input (+)L (-)N
Physical Parameters
Overall Length4.94"
Width:
2.31"
Mounting:
4.61"
Height:
1.00"
Weight:
0.57 lbs
Qty/Carton: 20
Color:
SE-White
BE/BES-Black
ME-White
Can Material: Metal
Warranty:
Universal Lighting Technologies warrants to the purchaser that each electronic ballast will be free from
defects in material or workmanship for a period of 3 years from date of manufacture when properly installed
and under normal conditions of use. Call 1-800-BALLASTx800 for technical assistance.
Manufactured in North America
Install in accordance with
the National Electrical Code.
Black
Red
Black
Red
White
Green
Ballast has plug in
wire trap connectors.
Use 18 AWG solid copper wire,
stripped to 3/8".
Ballast Must be Grounded.
Use External Ground Wire.
One Lamp
Application
White
Blue
Green
Two Lamp
Application
Reds
Yellows
Blues
Blue
1-800-BALLAST
www.universalballast.com
February 2005
Fixture B3
Type
FEATURES
OPTICAL SYSTEM
• Reflector - Self-flanged, specular clear or semi-diffuse
reflector. Fluted vertical upper section works in conjunction with Bounding Ray Optical Principle to provide lamp
before lamp image and smooth transition from top of reflector to bottom. Minimum flange matches reflector finish. White painted flange optional.
• Baffle/cone - Specular clear upper reflector. Microgroove
baffle with white painted flange or specular black cone
with flange that matches cone finish.
• Hinged lampdoor seals upper trim for optimal fixture efficiency and the reduction of stray light in the plenum.
MECHANICAL
• 16-gauge galvanized steel mounting/plaster frame with
integral yoke to retain optical system. Maximum 1-1/2"
ceiling thickness.
• Mounting bars are 16-gauge galvanized steel with continuous 4" vertical adjustment, held in place with toolless, integral cam-action locking system. Post installation
adjustment possible without the use of tools from above
or below the ceiling. Shipped pre-installed.
• Galvanized steel junction box with bottom-hinged
access covers and spring latches. Two combination 1/2"–
3/4" and three 1/2" knockouts for straight-through conduit
runs. Capacity: 8 (4 in, 4 out) No. 12 AWG conductors,
rated for 90°C.
ELECTRICAL SYSTEM
• Horizontally-mounted, four-pin, positive-latch, thermoplastic socket.
• Class P, thermally-protected high power factor electronic
ballast mounted to the junction box (CP and EL ballast
mounted on ballast tray).
LISTING
• Fixtures are UL listed for thru-branch wiring, recessed
mounting and damp locations. Listed and labeled to comply with Canadian Standards (see Options).
Catalog number
.....................................
............................................................................................................................................
.....................................
............................................................................................................................................
Compact Fluorescent Downlights
6" AF
Open Reflector
Horizontal Lamp
Triple-Tube
7-1/4 (18.4)
Aperture: 6-1/4 (15.9)
Ceiling Opening: 7-1/8 (18.1)
Overlap Trim: 7-1/2 (19.1)
15-7/8 (40.3)
ENERGY
LER.DOL
41
Annual
Energy Cost
$5.83
Lamps
1/26TRT
Lamp
Lumens
1800
Ballast
Factor
0.98
13-5/8
(34.6)
Input
Watts
27
All dimensions are inches (centimeters).
Calculated in accordance with NEMA standard LE-5.
Example: AF 1/26TRT 6AR MVOLT
ORDERING INFORMATION
Choose the boldface catalog nomenclature that best suits your needs and write it on
the appropriate line. Order accessories as separate catalog number (shipped separately).
AF
Series
AF
Wattage/Lamp
Reflector/Color
1/18TRT
6AR
1/26TRT
6PR
1/32TRT
6UBR
1/42TRT
6WTR
6CR
6GR
6MB
6BC
Clear
(blank) Specular low
iridescent
Pewter
LD
Semi-diffuse
Umber
low
Wheat
iridescent
Champagne
1
Gold
Gold 1
Black Baffle2,3
Black Cone2
NOTES:
1 Not recommended for use with compact fluorescent lamp.
Consult factory.
2 Not available with finishes.
3 White flange standard.
4 Multi-volt electronic ballast capable of operating on any
line voltage between 120-277 volt.
5 Consult factory for specific availability.
6 Not available with black cone.
Ballast
Voltage
Finish
MVOLT
4
120
277
347
Options
(blank) GEB10 standard.
Electronic ballast.
5
DMHL
Lutron Hi-Lume
electronic dimming ballast
5
ADEZ
Advance Mark X
electronic dimming ballast.
WLP
TRW
6
EL
ELR
GMF
RIF
LRC
Accessories
Order as separate catalog number.
SC6FL
Sloped ceiling adaptor.
Degree of slope must be
specified (10D, 15D, 20D,
25D, 30D). Ex: SC6FL 10D
QDS
CP
CSA
With 35°K lamp (shipped
separately).
White flange.
Emergency battery pack.
Integral test switch provided.
Emergency battery pack.
Remote test switch provided.
Single, slow-blow fuse (not
available with MVOLT).
Radio Interference Filter.
Provides compatibility with
Lithonia Reloc System. Reloc
System can be installed less
this option with connectors
provided by others. Access
above ceiling required. For
compatible Reloc Systems, see
options and accessories tab.
Quick Disconnect for easy
ballast replacement. Not
available with EL or ELR option.
Chicago Plenum (consult
factory).
CSA Certified.
AF 6 TRT OPEN
DCF-110
Lighting eCatalog - Print LSB Page
Page 1 of 2
Fixture B3 Lamp
Lighting Specification Bulletin
Plug-in 4-Pin Triple Biax®
Product Code: 34406
Description: F26TBX/SPX35/835/A/4P
Specification:
Firm Name :
Job Name :
General
Product Code
34406
Description
F26TBX/SPX35/A/4
Subcategory
Plug-in 4-Pin Triple Biax®
Physical
Bulb Type
BiaxT (T4)
Base Type
GX24q-3
Max Overall
Length (In.)
5.2
Max Overall
Length (mm)
132
Nominal Length
(In.)
5.20
Nominal Length
(mm)
133
Width of Lamp in
inches
1.7
Depth of Lamp
in inches
1.7
Base Face to
Top of Lamp
(In.)
4.6
Lamp Mortality
Photometric
Average Rated
Life
12000
Lumens (Initial)
1710
Lumens (Mean)
1440
Color
Temperature (K)
3500
Color Rendering
Index (Ra) CRI
82
Nominal Efficacy
(Lumens/Watt)
69
Radial Luminous Intensity Distribution
Electrical
Watts
26
http://genet.geappliances.com/LightingeCatalog/Dispatcher?REQUEST=PRINTLSB&pcod... 2/7/2006
Fixture B3 Ballast
Brand Name
Ballast Type
Starting Method
Lamp Connection
Input Voltage
Input Frequency
Status
Electrical Specifications
Lamp Type
CFQ26W/G24Q
CFQ26W/G24Q
* CFTR26W/GX24Q
CFTR26W/GX24Q
CFTR32W/GX24Q
CFTR42W/GX24Q
FC12T5
FC9T5
Num.
of
Lamp
s
1
2
1
2
1
1
1
1
Rated
Lamp
Watts
Min. Start
Temp
(°F/C)
Input
Current
(Amps)
26
26
26
26
32
42
40
22
0/-18
0/-18
0/-18
0/-18
0/-18
0/-18
0/-18
0/-18
0.23
0.43
0.24
0.45
0.31
0.38
0.32
0.21
Wiring Diagram
BLUE
BLACK
WHITE
Input
Power
(ANSI
Watts)
27
51
29
54
36
46
38
25
SMARTMATE
Electronic
Rapid Start
Series
120
60 HZ
Active
Ballast
Factor
MAX
THD
%
Power
Factor
MAX Lamp
Current
Crest Factor
B.E.F.
1.00
1.00
1.10
1.00
0.98
0.98
0.95
1.00
10
10
10
10
10
10
10
10
0.98
0.99
0.98
0.98
0.98
0.98
0.98
0.98
1.5
1.5
1.5
1.5
1.5
1.5
1.5
1.5
3.70
1.96
3.79
1.85
2.72
2.13
2.50
4.00
Enclosure
WIRING: (2) LAMPS
LINE
RCF-2S26-H1-LD-QS
(1) LAMP
BLUE
BALLAST YELLOW
GREEN
RED
RED
Green Terminal must be Grounded
The wiring diagram that appears above is
for the lamp type denoted by the asterisk (*)
Standard Lead Length (inches)
Enclosure Dimensions
OverAll (L)
4.98 "
4 49/50
12.6 cm
Width (W)
2.4 "
2 2/5
6.1 cm
Height (H) Mounting (M)
1.0 "
4.6 "
1
4 3/5
2.5 cm
11.7 cm
Revised 09/02/2004
Data is based upon tests performed by Advance Transformer in a controlled environment and representative of relative performance. Actual performance
can vary depending on operating conditions. Specifications are subject to change without notice. All specifications are nominal unless otherwise noted.
ADVANCE TRANSFORMER CO.
O'HARE INTERNATIONAL CENTER · 10275 WEST HIGGINS ROAD · ROSEMONT, IL 60018
Customer Support/Technical Service: Phone: 800-372-3331 · Fax: 630-307-3071
Corporate Offices: Phone: 800-322-2086
Fixture B4
Type
FEATURES
OPTICAL SYSTEM
• Reflector - Self-flanged, specular clear or semi-diffuse
reflector. Fluted vertical upper section works in conjunction with Bounding Ray Optical Principle to provide lamp
before lamp image and smooth transition from top of reflector to bottom. Minimum flange matches reflector finish. White painted flange optional.
• Baffle/cone - Specular clear upper reflector. Microgroove
baffle with white painted flange or specular black cone
with flange that matches cone finish.
• Hinged lampdoor seals upper trim for optimal fixture efficiency and the reduction of stray light in the plenum.
MECHANICAL
• 16-gauge galvanized steel mounting/plaster frame with
integral yoke to retain optical system. Maximum 1-1/2"
ceiling thickness.
• Mounting bars are 16-gauge galvanized steel with continuous 4" vertical adjustment, held in place with toolless, integral cam-action locking system. Post installation
adjustment possible without the use of tools from above
or below the ceiling. Shipped pre-installed.
• Galvanized steel junction box with bottom-hinged
access covers and spring latches. Two combination 1/2"–
3/4" and three 1/2" knockouts for straight-through conduit
runs. Capacity: 8 (4 in, 4 out) No. 12 AWG conductors,
rated for 90°C.
ELECTRICAL SYSTEM
• Horizontally-mounted, four-pin, positive-latch, thermoplastic socket.
• Class P, thermally-protected high power factor electronic
ballast mounted to the junction box (CP and EL ballast
mounted on ballast tray).
LISTING
• Fixtures are UL listed for thru-branch wiring, recessed
mounting and damp locations. Listed and labeled to comply with Canadian Standards (see Options).
Catalog number
.....................................
............................................................................................................................................
.....................................
............................................................................................................................................
Compact Fluorescent Downlights
6" AF
Open Reflector
Horizontal Lamp
Triple-Tube
7-1/4 (18.4)
Aperture: 6-1/4 (15.9)
Ceiling Opening: 7-1/8 (18.1)
Overlap Trim: 7-1/2 (19.1)
15-7/8 (40.3)
ENERGY
LER.DOL
41
Annual
Energy Cost
$5.83
Lamps
1/26TRT
Lamp
Lumens
1800
Ballast
Factor
0.98
13-5/8
(34.6)
Input
Watts
27
All dimensions are inches (centimeters).
Calculated in accordance with NEMA standard LE-5.
Example: AF 1/26TRT 6AR MVOLT
ORDERING INFORMATION
Choose the boldface catalog nomenclature that best suits your needs and write it on
the appropriate line. Order accessories as separate catalog number (shipped separately).
AF
Series
AF
Wattage/Lamp
Reflector/Color
1/18TRT
6AR
1/26TRT
6PR
1/32TRT
6UBR
1/42TRT
6WTR
6CR
6GR
6MB
6BC
Clear
(blank) Specular low
iridescent
Pewter
LD
Semi-diffuse
Umber
low
Wheat
iridescent
Champagne
1
Gold
Gold 1
Black Baffle2,3
Black Cone2
NOTES:
1 Not recommended for use with compact fluorescent lamp.
Consult factory.
2 Not available with finishes.
3 White flange standard.
4 Multi-volt electronic ballast capable of operating on any
line voltage between 120-277 volt.
5 Consult factory for specific availability.
6 Not available with black cone.
Ballast
Voltage
Finish
MVOLT
4
120
277
347
Options
(blank) GEB10 standard.
Electronic ballast.
5
DMHL
Lutron Hi-Lume
electronic dimming ballast
5
ADEZ
Advance Mark X
electronic dimming ballast.
WLP
TRW
6
EL
ELR
GMF
RIF
LRC
Accessories
Order as separate catalog number.
SC6FL
Sloped ceiling adaptor.
Degree of slope must be
specified (10D, 15D, 20D,
25D, 30D). Ex: SC6FL 10D
QDS
CP
CSA
With 35°K lamp (shipped
separately).
White flange.
Emergency battery pack.
Integral test switch provided.
Emergency battery pack.
Remote test switch provided.
Single, slow-blow fuse (not
available with MVOLT).
Radio Interference Filter.
Provides compatibility with
Lithonia Reloc System. Reloc
System can be installed less
this option with connectors
provided by others. Access
above ceiling required. For
compatible Reloc Systems, see
options and accessories tab.
Quick Disconnect for easy
ballast replacement. Not
available with EL or ELR option.
Chicago Plenum (consult
factory).
CSA Certified.
AF 6 TRT OPEN
DCF-110
Lighting eCatalog - Print LSB Page
Page 1 of 2
Fixture B4 Lamp
Lighting Specification Bulletin
Plug-in 4-Pin Triple Biax®
Product Code: 46314
Description: F42TBX835A4P/EOL
Specification:
Firm Name :
Job Name :
General
Product Code
46314
Description
F42TBX835A4P/EOL
Subcategory
Plug-in 4-Pin Triple Biax®
Physical
Bulb Type
BiaxT (T4)
Base Type
GX24-q4
Max Overall Length (In.)
6.4
Max Overall Length
(mm)
163
Nominal Length (In.)
6.40
Nominal Length (mm)
163
Width of Lamp in inches
1.7
Depth of Lamp in inches
1.5
Base Face to Top of
Lamp (In.)
5.77
Lamp Mortality
Photometric
Average Rated Life
12000
Lumens (Initial)
3200
Lumens (Mean)
2690
Color Temperature (K)
3500
Color Rendering Index
(Ra) CRI
82
Nominal Efficacy
(Lumens/Watt)
76
Radial Luminous Intensity Distribution
Electrical
Watts
42
Minimum Starting Temp
(deg F)
-.4
Nominal Lamp
Operating Frequency
(Hz)
20000
Cold Cathode
Resistance (Rc)
2.7
Spectral Power Distribution Graphs
http://genet.geappliances.com/LightingeCatalog/Dispatcher?REQUEST=PRINTLSB&pco... 2/16/2006
Compact SETM 5%
Ballast
High-Performance Dimming
CompactSE-1 03.08.04
Compact SE Overview
Fixture B4 Ballast
For designs requiring the energy savings and
aesthetic appeal of dimmed T4 compact fluorescent
or T5 twin-tube lamps, Compact SE dimming
ballasts are your solution. The Compact SE product
family includes ballasts for nearly every type of
dimmable compact fluorescent lamp.
Compact SE, case type A
3.00”w (76mm) x 1.00”h (25mm) x 4.90”l (124mm)
Features
• Continuous, flicker-free dimming from 100% to 5%
• Standard 3-wire line-voltage phase-control
technology for consistent fixture-to-fixture
dimming performance
• Models for 4-pin T4 compact lamps and T5
twin-tube lamps
• Programmed rapid start design will preheat lamp
cathodes before applying full arc voltage
• Lamps turn on to any dimmed level without
flashing to full brightness
• Low harmonic distortion throughout the entire
dimming range maintains power quality
• Frequency of operation ensures that ballast does
not interfere with infrared devices operating
between 38 and 42 kHz
• Inrush current limiting circuitry eliminate circuit
breaker tripping, switch arcing, and relay failure
• End-of-lamp-life protection circuitry ensures safe
operation throughout entire lamp life cycle
• Ultra quiet operation
• Protected from miswires of any input power to
control lead, or lamp leads to each other or ground
• 100% compatible with all Lutron 3-wire
fluorescent controls
• 100% performance tested at factory
• Designed and assembled in the USA
• 5-year limited warranty with Lutron field service
commissioning (3-year standard warranty) from
date of purchase
• Ballasts that dim T4 compact fluorescent lamps
are intended for factory installation by OEM
fixture manufacturer.
R
S P E C I F I C AT I O N S U B M I T TA L
Job Name:
Job Number:
Model Numbers:
Compact SE, case type B
3.00”w (76mm) x 1.00”h (25mm) x 6.75”l (171mm)
Compact SE, case type F
2.38”w (60mm) x 1.50”h (38mm) x 9.50”l (241mm)
Page
Compact SETM 5%
Ballast
High-Performance Dimming
CompactSE-2 03.08.04
Specifications
Fixture B4 Ballast
Performance
Standards
• Dimming Range: 100% to 5% measured relative
light output (RLO)
• Lamp Starting: programmed rapid start
• Minimum Lamp Starting Temperature: 10°C (50°F)
• Ambient Temperature Operating Range: 10°C
(50°F) to 60°C (140°F)
• Relative Humidity: maximum 90% noncondensing
• Operating Voltage: 120V or 277V at 60Hz
• Lamp Current Crest Factor: less than 1.7
• Lamp Flicker: none visible
• Light Output: constant ±2% light output for
line voltage variations of ±10%
• Lamp Life: average lamp life meets or exceeds
rating of lamp manufacturer
• Ballast Factor: greater than .95 for T4 quad or
triple tube lamps, and greater than .85 for T5
twin-tube lamps
• Power Factor: greater than .95
• Total Harmonic Distortion (THD): less than 10%
• Maximum Inrush Current: 7 amps per ballast at
120V, 3 amps per ballast at 277V
• Sound Rating: Inaudible in a 27dBa ambient
• Maximum Ballast Case Temperature: 75°C (167°F)
R
S P E C I F I C AT I O N S U B M I T TA L
Job Name:
Job Number:
Model Numbers:
• UL Listed (evaluated to the requirements of
UL935)
• CSA certified (evaluated to the requirements of
C22.2 No. 74)
• Class P thermally protected
• Meets ANSI C82.11 High Frequency Ballast
Standard
• Meets FCC Part 18 Non-Consumer for EMI/RFI
emissions requirements
• T4 compact fluorescent ballasts are MIL Std.
461E compliant (meets the requirements of
CE101, RE101 and RE102)
• Meets ANSI C62.41 Category A surge protection
standards to 6kV
• Manufacturing facilities employ ESD reduction
practices that comply with the requirements of
ANSI/ESD S20.20
• Lutron Quality Systems registered to ISO 9001
Page
Compact SETM 5%
Ballast
High-Performance Dimming
CompactSE-3 03.08.04
Compact SE Ballast Models Fixture B4 Ballast
120 VOLTS
Lamp
Type
T4 4-Pin
Quad-Tube
Lamp
Watts
Lamps Case Ballast
Type Current
per
(amps)
ballast
Compact SE
Model Number 1
Ballast
Current
(amps)
Compact SE
Model Number 1
18W
1
2
A
B
.20
.42
FDB-T418-120-1-S
FDB-T418-120-2-S
.08
.17
FDB-T418-277-1-S
FDB-T418-277-2-S
26W
1
2
A
B
.26
.50
FDB-T426-120-1-S
FDB-T426-120-2-S
.12
.21
FDB-T426-277-1-S
FDB-T426-277-2-S
18W
1
2
A
B
.20
.42
FDB-T418-120-1-S
FDB-T418-120-2-S
.08
.17
FDB-T418-277-1-S
FDB-T418-277-2-S
26W
1
2
A
B
.26
.50
FDB-T426-120-1-S
FDB-T426-120-2-S
.12
.21
FDB-T426-277-1-S
FDB-T426-277-2-S
32W
1
2
A
B
.31
.59
FDB-T432-120-1-S
FDB-T432-120-2-S
.13
.24
FDB-T432-277-1-S
FDB-T432-277-2-S
42W
1
2
B
B
.36
.67
FDB-T442-120-1-S
FDB-T442-120-2-S
.16
.29
FDB-T442-277-1-S
FDB-T442-277-2-S
36/39W
(16”)
1
2
3
F
F
F
.33
.58
.85
FDB-1643-120-1
FDB-1643-120-2
FDB-1643-120-3
.14
.25
.35
FDB-1643-277-1
FDB-1643-277-2
FDB-1643-277-3
40W
(22”)
1
2
3
F
F
F
.33
.61
.88
FDB-2227-120-1
FDB-2227-120-2
FDB-2227-120-3
.14
.25
.38
FDB-2227-277-1
FDB-2227-277-2
FDB-2227-277-3
50W
(22”)
1
2
F
F
.38
.69
FDB-2243-120-1
FDB-2243-120-2
.17
.32
FDB-2243-277-1
FDB-2243-277-2
1/2” diameter
T4 4-Pin
Triple-Tube
277 VOLTS
1/2” diameter
T5 Twin-Tube
5/8” diameter
1
Mounting studs standard for T4 ballasts. Delete suffix -S in the model number if mounting studs not needed.
R
S P E C I F I C AT I O N S U B M I T TA L
Job Name:
Job Number:
Model Numbers:
Page
Fixture C1
™
LIGHTLINE WALL WASH
2” Aperture
SPECIFICATIONS
Recessed Mount Wall Wash
AVAILABLE FIXTURE
3 7/8"
3 7/8"
4’
2’
2
2
3"
1/8"
1/8"
3"
LWAR9 4’ T5HO/T5
SPECIFICATIONS
LWAR9 2’ T5HO/T5
SPECIFICATIONS
CONSTRUCTION
ELECTRICAL
Housing is formed from painted cold-rolled steel.
Five-stage iron-phosphate pretreatment ensures
superior paint adhesion and rust resistance.
Painted parts finished with high-gloss baked
enamel.
Specify 120 volt , 277 volt, or 347 volt. Non EL
versions damp location labeled. UL and C-UL
listed and labeled.
For special circuiting, consult factory.
FIXTURE SIZE
Nominal 2” aperture. 2’ and 4’ lengths available.
REFLECTORS
Extruded aluminum, two component, specular
asymetric vacuum metalized reflector system.
Black metal diffuser with round holes. Lower
extruded aluminum reflector.
ORDERING LOGIC
ity
nt
ua
Q
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tio
ec
S
s
os
Cr
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Ce
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Fi
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Ba
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p
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La
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Co
ns
io
pt
O
1
LWAR9 – Asymetric
recessed
24T5HO – 24W 2’ T5HO
54T5HO – 54W 4’ T5HO
28T5 – 28W 4’ T5
14T5 – 14W 2’ T5
G – Lay in grid
ST – Screw Slot
U2 – 2’
U4 – 4’
HOL – Black Metal
Diffuser with
Round Holes
120
277
347
GMF – Slow Blow Fuse
t
LST – Labor Saving Tandam
CP – Chicago Plenum
EL – Emergency
Battery Pack
(390-700 lumens)**
GEB10 – 10% THD Ballast
(consult factory)
OSDIM – Osram Dimming
Ballast*
L/LP – No Lamp
LP830 3000k 80+ CRI
LP835 3500k 80+ CRI
LP840 4000k 80+ CRI
Accessories (order separately)
DHSG2*** - Drywall housing 2’
DHSG4*** - Drywall housing 4’
* Only available with 54T5HO
** Only available with 28T5 & 54T5HO
*** Use with “G” trim type
t Option available on select models. Order fixtures in pairs. Factory will supply correct number
of Master and Satellite units. 9’ cable standard.
EXAMPLE :
Qty Fixture section
4
1
LWAR9 ST 1 54T5HO HOL U4 120 GEB10 L/LP
LWAR9 G 1 14T5 HOL U2 277 GEB10 LP835
Peerless Lighting reserves the right to change materials or modify the design of its product without notification as part of the company’s continuing product improvement program.
PEERLESS LIGHTING Box 2556, Berkeley, CA 94702-0556 510.845-2760 Fax 510.845-2776 www.peerless-lighting.com
© 2003 Acuity Lighting Group, Inc. All rights reserved. “Peerless” is a registered trademark of Acuity Lighting Group, Inc. and “Lightline” is a trademark of Acuity Lighting Group, Inc.
These products may be covered by one or more U.S. Patents or Patents Pending. 3/03
ITEM #:
LLWW-1
Lighting eCatalog - Print LSB Page
Page 1 of 2
Fixture C1 Lamp
Lighting Specification Bulletin
T5 Starcoat High Output
Product Code: 46700
Description: F24W/T5/835/ECO
Specification:
Firm Name :
Job Name :
General
Product Code
46700
Description
F24W/T5/835/ECO
Subcategory
T5 Starcoat High Output
Physical
Bulb Type
T5
Base Type
Miniature BiPin (G5)
Bulb Material
Soft Glass
Nominal Length (In.)
21.60
Nominal Length (mm)
550
Max Overall Length (In.)
22.173
Bulb Nominal Diameter in
inches
.625
Max bulb diameter
.67
Max Face to End of
Opposing Pin (B)
21.89
Min Face to End of
Opposing Pin (B)
21.8
Photometric
Lumens (Initial)
2000
Lumens (Mean)
1880
Color Temperature (K)
3500
Nominal Efficacy
(Lumens/Watt)
83
Electrical
Average Rated Life
20000
Watts
24
Nominal Lamp Volts
75
Nominal Lamp Operating
Frequency (Hz)
20000
Minimum Starting Temp
(deg F)
5
Min. Terminal to Terminal
Starting Lamp Voltage
(Vrms)- Instant Start at
15°C
350
Min. Terminal to Terminal
280
http://genet.geappliances.com/LightingeCatalog/Dispatcher?REQUEST=PRINTLSB&pcod... 2/7/2006
Fixture C1 Ballast
Brand Name
Ballast Type
Starting Method
Lamp Connection
Input Voltage
Input Frequency
Status
Electrical Specifications
Lamp Type
Num.
of
Lamp
s
* F24T5/HO
1
F24T5/HO
2
F39T5/HO
1
FC12T5
1
FC9T5
1
FC9T5
2
FT24W/2G11
1
FT24W/2G11
2
FT36W/2G11
1
FT40W/2G11/RS
1
ICN-2S24@277V
Rated
Lamp
Watts
Min. Start
Temp
(°F/C)
Input
Current
(Amps)
0
0
39
40
22
22
24
24
36
40
0/-18
0/-18
0/-18
0/-18
0/-18
0/-18
0/-18
0/-18
0/-18
0/-18
0.10
0.19
0.15
0.15
0.10
0.19
0.10
0.19
0.13
0.17
Wiring Diagram
Input
Power
(ANSI
Watts)
27
52
40
40
27
52
27
52
34
47
CENTIUM T5
Electronic
Programmed Start
Series
277
50/60 HZ
Active
Ballast
Factor
MAX
THD
%
Power
Factor
MAX Lamp
Current
Crest Factor
B.E.F.
1.02
1.00
0.90
0.84
1.02
1.00
1.02
1.00
0.90
1.00
10
10
10
10
10
10
10
10
10
10
0.98
0.98
0.98
0.98
0.98
0.98
0.98
0.98
0.98
0.98
1.7
1.7
1.7
1.7
1.7
1.7
1.7
1.7
1.7
1.7
3.78
1.92
2.25
2.10
3.78
1.92
3.78
1.92
2.65
2.13
Enclosure
For 1 lamp operation, do not use yellow leads
The wiring diagram that appears above is
for the lamp type denoted by the asterisk (*)
Enclosure Dimensions
Standard Lead Length (inches)
Black
White
Blue
Red
Yellow
Gray
Violet
in.
0
0
0
0
0
0
0
cm.
0
0
0
0
0
0
0
Yellow/Blue
Blue/White
Brown
Orange
Orange/Black
Black/White
Red/White
in.
0
0
0
0
0
0
0
cm.
0
0
0
0
0
0
0
OverAll (L)
16.70 "
16 7/10
42.4 cm
Width (W)
1.18 "
1 9/50
3 cm
Height (H) Mounting (M)
1.00 "
16.34 "
1
16 17/50
2.5 cm
41.5 cm
Revised 09/01/2004
Data is based upon tests performed by Advance Transformer in a controlled environment and representative of relative performance. Actual performance
can vary depending on operating conditions. Specifications are subject to change without notice. All specifications are nominal unless otherwise noted.
ADVANCE TRANSFORMER CO.
O'HARE INTERNATIONAL CENTER · 10275 WEST HIGGINS ROAD · ROSEMONT, IL 60018
Customer Support/Technical Service: Phone: 800-372-3331 · Fax: 630-307-3071
Corporate Offices: Phone: 800-322-2086
Fixture C2
™
LIGHTLINE WALL WASH
2” Aperture
SPECIFICATIONS
Recessed Mount Wall Wash
AVAILABLE FIXTURE
3 7/8"
3 7/8"
4’
2’
2
2
3"
1/8"
1/8"
3"
LWAR9 4’ T5HO/T5
SPECIFICATIONS
LWAR9 2’ T5HO/T5
SPECIFICATIONS
CONSTRUCTION
ELECTRICAL
Housing is formed from painted cold-rolled steel.
Five-stage iron-phosphate pretreatment ensures
superior paint adhesion and rust resistance.
Painted parts finished with high-gloss baked
enamel.
Specify 120 volt , 277 volt, or 347 volt. Non EL
versions damp location labeled. UL and C-UL
listed and labeled.
For special circuiting, consult factory.
FIXTURE SIZE
Nominal 2” aperture. 2’ and 4’ lengths available.
REFLECTORS
Extruded aluminum, two component, specular
asymetric vacuum metalized reflector system.
Black metal diffuser with round holes. Lower
extruded aluminum reflector.
ORDERING LOGIC
ity
nt
ua
Q
n
tio
ec
S
s
os
Cr
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ps
pe
Ty
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Ty
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Ce
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Fi
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p
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O
1
LWAR9 – Asymetric
recessed
24T5HO – 24W 2’ T5HO
54T5HO – 54W 4’ T5HO
28T5 – 28W 4’ T5
14T5 – 14W 2’ T5
G – Lay in grid
ST – Screw Slot
U2 – 2’
U4 – 4’
HOL – Black Metal
Diffuser with
Round Holes
120
277
347
GMF – Slow Blow Fuse
t
LST – Labor Saving Tandam
CP – Chicago Plenum
EL – Emergency
Battery Pack
(390-700 lumens)**
GEB10 – 10% THD Ballast
(consult factory)
OSDIM – Osram Dimming
Ballast*
L/LP – No Lamp
LP830 3000k 80+ CRI
LP835 3500k 80+ CRI
LP840 4000k 80+ CRI
Accessories (order separately)
DHSG2*** - Drywall housing 2’
DHSG4*** - Drywall housing 4’
* Only available with 54T5HO
** Only available with 28T5 & 54T5HO
*** Use with “G” trim type
t Option available on select models. Order fixtures in pairs. Factory will supply correct number
of Master and Satellite units. 9’ cable standard.
EXAMPLE :
Qty Fixture section
4
1
LWAR9 ST 1 54T5HO HOL U4 120 GEB10 L/LP
LWAR9 G 1 14T5 HOL U2 277 GEB10 LP835
Peerless Lighting reserves the right to change materials or modify the design of its product without notification as part of the company’s continuing product improvement program.
PEERLESS LIGHTING Box 2556, Berkeley, CA 94702-0556 510.845-2760 Fax 510.845-2776 www.peerless-lighting.com
© 2003 Acuity Lighting Group, Inc. All rights reserved. “Peerless” is a registered trademark of Acuity Lighting Group, Inc. and “Lightline” is a trademark of Acuity Lighting Group, Inc.
These products may be covered by one or more U.S. Patents or Patents Pending. 3/03
ITEM #:
LLWW-1
Lighting eCatalog - Print LSB Page
Page 1 of 2
Fixture C2 Lamp
Lighting Specification Bulletin
T5 Starcoat High Efficiency
Product Code: 46705
Description: F28W/T5/835/ECO
Specification:
Firm Name :
Job Name :
General
Product Code
46705
Description
F28W/T5/835/ECO
Subcategory
T5 Starcoat High Efficiency
Physical
Bulb Type
T5
Base Type
Miniature BiPin (G5)
Bulb Material
Soft Glass
Nominal Length (In.)
45.20
Nominal Length (mm)
1150
Max Overall Length (In.)
45.795
Bulb Nominal Diameter in
inches
.625
Max bulb diameter
.67
Max Face to End of
Opposing Pin (B)
45.42
Min Face to End of
Opposing Pin (B)
45.42
Photometric
Lumens (Initial)
2900
Lumens (Mean)
2726
Color Temperature (K)
3500
Nominal Efficacy
(Lumens/Watt)
104
Electrical
Average Rated Life
20000
Watts
28
Nominal Lamp Volts
167
Nominal Lamp Operating
Frequency (Hz)
20000
Minimum Starting Temp
(deg F)
5
Min. Terminal to Terminal
Starting Lamp Voltage
(Vrms)- Instant Start at
15°C
530
Min. Terminal to Terminal
425
http://genet.geappliances.com/LightingeCatalog/Dispatcher?REQUEST=PRINTLSB&pcod... 2/7/2006
Fixture C2 Ballast
Electrical Specifications
Lamp Type
Num.
of
Lamp
s
1
2
1
2
1
2
1
2
F14T5
F14T5
F21T5
F21T5
F28T5
* F28T5
F35T5
F35T5
Rated
Lamp
Watts
Min. Start
Temp
(°F/C)
Input
Current
(Amps)
14
14
21
21
28
28
35
35
0/-18
0/-18
0/-18
0/-18
0/-18
0/-18
0/-18
0/-18
0.07
0.13
0.10
0.17
0.12
0.23
0.15
0.28
Wiring Diagram
cm.
0
0
0
0
0
0
0
Ballast
Factor
MAX
THD
%
Power
Factor
MAX Lamp
Current
Crest Factor
B.E.F.
1.07
1.06
1.03
1.02
1.04
1.03
1.01
1.00
20
10
15
10
10
10
10
10
0.90
0.98
0.95
0.98
0.98
0.99
0.98
0.99
1.7
1.7
1.7
1.7
1.7
1.7
1.7
1.7
5.63
3.12
3.96
2.13
3.15
1.63
2.46
1.30
Enclosure Dimensions
Standard Lead Length (inches)
in.
0
0
0
0
0
0
0
Input
Power
(ANSI
Watts)
19
34
26
48
33
63
41
77
CENTIUM T5
Electronic
Programmed Start
Series
277
50/60 HZ
Active
Enclosure
The wiring diagram that appears above is
for the lamp type denoted by the asterisk (*)
Black
White
Blue
Red
Yellow
Gray
Violet
ICN-2S28@277
Brand Name
Ballast Type
Starting Method
Lamp Connection
Input Voltage
Input Frequency
Status
Yellow/Blue
Blue/White
Brown
Orange
Orange/Black
Black/White
Red/White
in.
0
0
0
0
0
0
0
cm.
0
0
0
0
0
0
0
OverAll (L)
16.70 "
16 7/10
42.4 cm
Width (W)
1.18 "
1 9/50
3 cm
Height (H) Mounting (M)
1.00 "
16.34 "
1
16 17/50
2.5 cm
41.5 cm
Revised 09/01/2004
Data is based upon tests performed by Advance Transformer in a controlled environment and representative of relative performance. Actual performance
can vary depending on operating conditions. Specifications are subject to change without notice. All specifications are nominal unless otherwise noted.
ADVANCE TRANSFORMER CO.
O'HARE INTERNATIONAL CENTER · 10275 WEST HIGGINS ROAD · ROSEMONT, IL 60018
Customer Support/Technical Service: Phone: 800-372-3331 · Fax: 630-307-3071
Corporate Offices: Phone: 800-322-2086
Fixture D1
Alberto Meda, Paolo Rizzatto 1985
TABLE
D12 pi.
Metal parts in die-cast aluminum.
Friction joints in stiffened nylon.
Rynite head.
Aluminum body finishes: silver or black.
Reflector in green or blue pressed glass
with enamelled white interior, or in black
or silver metal.
Anti-UV protection glass.
12
"
cm
.
30
12
"
cm
.
30
1.8"
4.5 cm.
BERENICE
XIV Compasso d’Oro, ADI/Milano:
Selection 1987
4"
2.4"
6 cm.
10.2 cm.
5"
13,5 cm.
D12/4
D12/5
35W/12V
Halogen-frosted
Bi-Pin T3 GY6.35
Product Information Bulletin
SYLVANIA BI-PIN
Low Voltage Halogen Lamps
Fixture D1 Lamp
A complete family of BI-PIN halogen lamps to meet
the various needs of designers and end users:
IR
• Axial filament
• 4000-hour average rated lamp life
• UV stop quartz capsule
• Low pressure
• Energy saving IR technology
• No UV-B or UV-C Light output
• Suitable for use without shielding*
STARLITE
• Axial filament
• 4000-hour average rated lamp life
• UV-control quartz capsule
• Low pressure
• Suitable for use without shielding*
The SYLVANIA family of BI-PIN lamps represents an
outstanding collection of compact, low voltage halogen
light sources ideal for a wide range of applications.
Top of the line BI-PIN IR lamps have an infrared reflective
coating on the outside of the capsule to conserve heat
energy and create a more efficient source. With an axial
filament for easy focusing and a 4000 hour life these lamps
are suitable for either saving energy or increasing light output
from existing fixtures without increasing energy costs.
High performance axial filament STARLITE lamps enable the
design of efficient reflector systems that are easy to focus,
resulting in better quality light on the target. These long life
efficient lamps meet the needs of all residential, commercial
and industrial bi-pin applications.
All SYLVANIA BI-PIN lamps utilize advanced UV-stop quartz
that reduces UV-B and UV-C radiation by 90% compared to
regular quartz. In addition, the IR coating on BI-PIB IR lamps
further reduces this spectrum, effectively eliminating all UV-B
and UV-C radiation from those capsules.
All 6V and 12V SYLVANIA BI-PIN lamps are low-pressure,
low-voltage capsules. Because of this, these lamps are
suitable for use without shielding.* The 24V SYLVANIA BI-PIN
lamps are high-pressure capsules, and a suitable protective
shield is required with these lamp types.
STANDARD
• Clear and frosted
• 2000-hour average rated lamp life
• UV-control quartz capsule
• Low pressure
• 6V and 12V suitable for use without shielding*
Product Availability
Watts
STARLITE
STANDARD
5
10
20
35
37
50
75
90
T3
T3, T3 (6V)
T3, T4
T4
T3, T3/F
T3, T3/F
T3, T3/F, T3 (24V)
T4
T4
T4
T4, T4/F, T4 (24V)
T4
BT4
BT4
*SYLVANIA does not require lamp containment shielding. Consult most
recent UL standards for luminaire requirements.
Application Information
Applications
Application Notes
Fixtures
Small aperture down lighting
Residential, commercial and
industrial applications
Accent strip lighting
Task lighting
Display lighting
• Axial filament orientation means light is smoothly
distributed by reflector
• Do not touch lamp with bare hands
• Overall UV-emissions are reduced 95% for extra
fade protection on light sensitive materials
Ardee/USA
Belfer
BK Lighting
CSL
Lucifer
Roberts
Tivoli
HAL007R3
IR
Fixture D1 Lamp
Sample Specification
Lamp Comparison
STANDARD
Lamp(s) shall be (a) 12V or
24V BI-PIN halogen lamp(s)
with a UV-control quartz
capsule and a 2000-hour
average rated life. Lamp(s)
shall be frosted or clear with
an axial or transverse
filament.
Item No.
58676
STARLITE
Lamp(s) shall be (a) 12V
STARLITE halogen lamp(s)
with a UV-control quartz
capsule and a 4000-hour
average rated life. Lamp(s)
shall be clear with an axial
filament and gold plated pins.
IR
Lamp(s) shall be (a) 12V
BI-PIN halogen lamp(s) with
a UV-control quartz capsule
and a 4000-hour average
rated life. Lamp(s) shall be
clear with an axial filament,
a constant and an infrared
reflective coating on the lamp
capsule.
Ordering and Specification Information
24V BI-PIN Lamps must be
operated in enclosed fixtures.
Lamp Type
50T4Q/CL/AX
Brand X Q50T4/CL/CD
Brand Y 50W/12V/Capsule
Incandescent 60A19/CL
Watts
50
50
50
50
Lumens
930
950
950
890
Av. Rated life
4000
2000
2000
1000
Dimensions
(A)
MOL
(B)
LCL
Standard (2) 5W-20W
Standard (2) 50W-75W
Standard (1) 50W/100W (24V)
31mm
44mm
44mm
22mm
30mm
30mm
Starlite (2) 5W
Starlite (1) 10W-20W
Starlite (1) 35W-90W
31mm
31mm
44mm
22mm
22mm
30mm
IR (3) 37W & 50W
44mm
30mm
BI-PIN IR
Item
Number
Ordering
Abbreviation
58683
58687
37BT4Q/IR
50BT4Q/IR
Watts
Volts
Base
Avg. Rated
Life
Lumens
(lm)
Figure
37
50
12
12
GY6.35
GY6.35
4000
4000
900
1320
3
3
Watts
Volts
Base
Avg. Rated
Life
Lumens
(lm)
Figure
5
10
10
20
20
35
50
75
90
12
12
6
12
12
12
12
12
12
G4
G4
G4
G4
GY6.35
GY6.35
GY6.35
GY6.35
GY6.35
4000
4000
4000
4000
4000
4000
4000
4000
4000
60
130
130
320
320
600
930
1450
1800
2
1
1
1
1
1
1
1
1
Watts
Volts
Base
Avg. Rated
Life
Lumens
(lm)
Figure
5
10
20
50
20
50
12
12
12
12
24
24
G4
G4
G4
GY6.35
G4
GY6.35
2000
2000
2000
2000
1000
2000
60
140
320
930
350
850
2
2
2
2
2
1
Watts
Volts
Base
Avg. Rated
Life
Lumens
(lm)
Figure
5
10
20
50
12
12
12
12
G4
G4
G4
GY6.35
2000
2000
2000
2000
55
130
300
830
2
2
2
2
STARLITE
Item
Number
Ordering
Abbreviation
58690
58691
58692
58694
58663
58672
58676
58680
58684
5T3Q/CL
10T3Q/CL/AX
10T3Q/CL/AX/6V
20T3Q/CL/AX1
20T4Q/CL/AX
35T4Q/CL/AX
50T4Q/CL/AX1
75T4Q/CL/AX1
90T4Q/CL/AX
Ordering
Abbreviation
National Accounts
58652
58658
58661
58675
58662
58678
5T3Q/CL1
10T3Q/CL1
20T3Q/CL1
50T4Q/CL1
20T3Q/CL/24V
50T4Q/CL/AX/24V
Phone: 1-800-562-4671
Fax: 1-800-562-4674
FROSTED
Industrial & Commercial
Phone: 1-800-255-5042
Fax: 1-800-255-5043
Special Markets
Phone: 1-800-762-7191
Fax: 1-800-762-7192
In Canada
OSRAM SYLVANIA LTD.
Headquarters
2001 Drew Road
Mississauga, ON L5S 1S4
Industrial & Commercial
Phone: 1-800-263-2852
Fax: 1-800-667-6772
Special Markets
Phone: 1-800-265-2852
Fax: 1-800-667-6772
Visit our website: www.sylvania.com
Item
Number
Ordering
Abbreviation
58651
58656
58695
58698
5T3Q/F
10T3Q/F
20T3Q/F
50T4Q/F
1
Also available in bulk pack
Ordering Guide
50
Wattage
T4
Tubular Lamp
T3= Diameter (3/8")
T4= Diameter (4/8")
BT4=Bulbous tube (4/8")
Q
Quartz Glass
/
CL
Finish
CL = Clear
F = Frosted
IR = IR Conserving
/
AX
AX= Axial Filament
__= Transverse
/
24V
Voltage
__= 12V
24V
6V
© 2002 OSRAM SYLVANIA
Item
Number
OSRAM SYLVANIA
National Customer
Support Center
18725 N. Union Street
Westfield, IN 46074
Printed on recycled paper. 10/02
STANDARD
E
Gimbal Directional spotlight
for low-voltage halogen lamps
Fixture D2
∅ 125
23
110
4666636466
2666661
∅ 140
46666663
QT12-ax-LP
0q z g
88111.000 Reflector silver
QT12-ax-LP 50W 12V GY6.35
950lm
Product description
Size 4
Luminaire: cast aluminium, black
powder-coated. Heat sink: black.
Mounting ring: plastic, white
(RAL9002), with multigroove baffle, cast aluminium, black powdercoated. Fixing springs for ceiling
thickness max. 25mm. Cardanic
suspension of the luminaire in the
mounting ring. 0°-40° tilt. Pivots
are to be locked.
Cable, L 500mm.
Anti-dazzle ring: plastic, black.
Flood reflector: aluminium, anodised, mirror-finish.
Transformer according to
EN 61558 or EN 61347 to be
ordered separately.
Weight 0.45kg
ERCO Leuchten GmbH
Postfach 24 60
58505 Lüdenscheid
Germany
Tel.:+49 2351 551-0
Fax.:+49 2351 551-300
info@erco.com
60°
30°
60°
4000 cd
30°
QT12-ax-LP 50W 12V GY6.35
950lm
h(m)
1
2
3
4
5
E(lx) D(m)
25°
2978 0.44
745 0.89
331 1.33
186 1.77
119 2.22
Technical Region: 230V/50Hz
Edition: December 16, 2005
Please download the current version
from
www.erco.com/88111.000
1/4
Product Information Bulletin
Fixture D2 Lamp
SYLVANIA BI-PIN
Low Voltage Halogen Lamps
A complete family of BI-PIN halogen lamps to meet
the various needs of designers and end users:
IR
• Axial filament
• 4000-hour average rated lamp life
• UV stop quartz capsule
• Low pressure
• Energy saving IR technology
• No UV-B or UV-C Light output
• Suitable for use without shielding*
STARLITE
• Axial filament
• 4000-hour average rated lamp life
• UV-control quartz capsule
• Low pressure
• Suitable for use without shielding*
The SYLVANIA family of BI-PIN lamps represents an
outstanding collection of compact, low voltage halogen
light sources ideal for a wide range of applications.
Top of the line BI-PIN IR lamps have an infrared reflective
coating on the outside of the capsule to conserve heat
energy and create a more efficient source. With an axial
filament for easy focusing and a 4000 hour life these lamps
are suitable for either saving energy or increasing light output
from existing fixtures without increasing energy costs.
High performance axial filament STARLITE lamps enable the
design of efficient reflector systems that are easy to focus,
resulting in better quality light on the target. These long life
efficient lamps meet the needs of all residential, commercial
and industrial bi-pin applications.
All SYLVANIA BI-PIN lamps utilize advanced UV-stop quartz
that reduces UV-B and UV-C radiation by 90% compared to
regular quartz. In addition, the IR coating on BI-PIB IR lamps
further reduces this spectrum, effectively eliminating all UV-B
and UV-C radiation from those capsules.
All 6V and 12V SYLVANIA BI-PIN lamps are low-pressure,
low-voltage capsules. Because of this, these lamps are
suitable for use without shielding.* The 24V SYLVANIA BI-PIN
lamps are high-pressure capsules, and a suitable protective
shield is required with these lamp types.
STANDARD
• Clear and frosted
• 2000-hour average rated lamp life
• UV-control quartz capsule
• Low pressure
• 6V and 12V suitable for use without shielding*
Product Availability
Watts
STARLITE
STANDARD
5
10
20
35
37
50
75
90
T3
T3, T3 (6V)
T3, T4
T4
T3, T3/F
T3, T3/F
T3, T3/F, T3 (24V)
T4
T4
T4
T4, T4/F, T4 (24V)
T4
BT4
BT4
*SYLVANIA does not require lamp containment shielding. Consult most
recent UL standards for luminaire requirements.
Application Information
Applications
Application Notes
Fixtures
Small aperture down lighting
Residential, commercial and
industrial applications
Accent strip lighting
Task lighting
Display lighting
• Axial filament orientation means light is smoothly
distributed by reflector
• Do not touch lamp with bare hands
• Overall UV-emissions are reduced 95% for extra
fade protection on light sensitive materials
Ardee/USA
Belfer
BK Lighting
CSL
Lucifer
Roberts
Tivoli
HAL007R3
IR
Fixture D2 Lamp
Sample Specification
Lamp Comparison
STANDARD
Lamp(s) shall be (a) 12V or
24V BI-PIN halogen lamp(s)
with a UV-control quartz
capsule and a 2000-hour
average rated life. Lamp(s)
shall be frosted or clear with
an axial or transverse
filament.
Item No.
58676
STARLITE
Lamp(s) shall be (a) 12V
STARLITE halogen lamp(s)
with a UV-control quartz
capsule and a 4000-hour
average rated life. Lamp(s)
shall be clear with an axial
filament and gold plated pins.
IR
Lamp(s) shall be (a) 12V
BI-PIN halogen lamp(s) with
a UV-control quartz capsule
and a 4000-hour average
rated life. Lamp(s) shall be
clear with an axial filament,
a constant and an infrared
reflective coating on the lamp
capsule.
Ordering and Specification Information
24V BI-PIN Lamps must be
operated in enclosed fixtures.
Lamp Type
50T4Q/CL/AX
Brand X Q50T4/CL/CD
Brand Y 50W/12V/Capsule
Incandescent 60A19/CL
Watts
50
50
50
50
Lumens
930
950
950
890
Av. Rated life
4000
2000
2000
1000
Dimensions
(A)
MOL
(B)
LCL
Standard (2) 5W-20W
Standard (2) 50W-75W
Standard (1) 50W/100W (24V)
31mm
44mm
44mm
22mm
30mm
30mm
Starlite (2) 5W
Starlite (1) 10W-20W
Starlite (1) 35W-90W
31mm
31mm
44mm
22mm
22mm
30mm
IR (3) 37W & 50W
44mm
30mm
BI-PIN IR
Item
Number
Ordering
Abbreviation
58683
58687
37BT4Q/IR
50BT4Q/IR
Watts
Volts
Base
Avg. Rated
Life
Lumens
(lm)
Figure
37
50
12
12
GY6.35
GY6.35
4000
4000
900
1320
3
3
Watts
Volts
Base
Avg. Rated
Life
Lumens
(lm)
Figure
5
10
10
20
20
35
50
75
90
12
12
6
12
12
12
12
12
12
G4
G4
G4
G4
GY6.35
GY6.35
GY6.35
GY6.35
GY6.35
4000
4000
4000
4000
4000
4000
4000
4000
4000
60
130
130
320
320
600
930
1450
1800
2
1
1
1
1
1
1
1
1
Watts
Volts
Base
Avg. Rated
Life
Lumens
(lm)
Figure
5
10
20
50
20
50
12
12
12
12
24
24
G4
G4
G4
GY6.35
G4
GY6.35
2000
2000
2000
2000
1000
2000
60
140
320
930
350
850
2
2
2
2
2
1
Watts
Volts
Base
Avg. Rated
Life
Lumens
(lm)
Figure
5
10
20
50
12
12
12
12
G4
G4
G4
GY6.35
2000
2000
2000
2000
55
130
300
830
2
2
2
2
STARLITE
Item
Number
Ordering
Abbreviation
58690
58691
58692
58694
58663
58672
58676
58680
58684
5T3Q/CL
10T3Q/CL/AX
10T3Q/CL/AX/6V
20T3Q/CL/AX1
20T4Q/CL/AX
35T4Q/CL/AX
50T4Q/CL/AX1
75T4Q/CL/AX1
90T4Q/CL/AX
Ordering
Abbreviation
National Accounts
58652
58658
58661
58675
58662
58678
5T3Q/CL1
10T3Q/CL1
20T3Q/CL1
50T4Q/CL1
20T3Q/CL/24V
50T4Q/CL/AX/24V
Phone: 1-800-562-4671
Fax: 1-800-562-4674
FROSTED
Industrial & Commercial
Phone: 1-800-255-5042
Fax: 1-800-255-5043
Special Markets
Phone: 1-800-762-7191
Fax: 1-800-762-7192
In Canada
OSRAM SYLVANIA LTD.
Headquarters
2001 Drew Road
Mississauga, ON L5S 1S4
Industrial & Commercial
Phone: 1-800-263-2852
Fax: 1-800-667-6772
Special Markets
Phone: 1-800-265-2852
Fax: 1-800-667-6772
Visit our website: www.sylvania.com
Item
Number
Ordering
Abbreviation
58651
58656
58695
58698
5T3Q/F
10T3Q/F
20T3Q/F
50T4Q/F
1
Also available in bulk pack
Ordering Guide
50
Wattage
T4
Tubular Lamp
T3= Diameter (3/8")
T4= Diameter (4/8")
BT4=Bulbous tube (4/8")
Q
Quartz Glass
/
CL
Finish
CL = Clear
F = Frosted
IR = IR Conserving
/
AX
AX= Axial Filament
__= Transverse
/
24V
Voltage
__= 12V
24V
6V
© 2002 OSRAM SYLVANIA
Item
Number
OSRAM SYLVANIA
National Customer
Support Center
18725 N. Union Street
Westfield, IN 46074
Printed on recycled paper. 10/02
STANDARD
Parscan Wallwasher
Fixture D3
237
∅ 95
366664
for low-voltage halogen lamps
466666663
E
229
46666663
QT12-ax
5i6
72103.000 White (RAL9002)
QT12-ax 50W 12V GY6.35 950lm
Product description
Housing: two-piece cylinder, aluminium, powder-coated, removable
for lamp replacement. 0°-90° tilt.
Scale for identifying the lamp
power used. Safety cord.
Bracket integrated in the cylinder:
cast aluminium, powder-coated,
rotatable on the 3-circuit adapter
through 360°. Screw to set the angle of rotation and of tilt. Internal
wiring.
Electronic transformer 230/12V,
20-50W.
ERCO 3-circuit adapter: plastic.
Spread lens with reflector: aluminium, silver anodised.
Use dimmers for electronic transformers (trailing edge).
Weight 1.50kg
Mounting
ERCO 3-circuit track
Hi-trac track
Monopoll track
1-circuit singlet
ERCO Leuchten GmbH
Postfach 24 60
58505 Lüdenscheid
Germany
Tel.:+49 2351 551-0
Fax.:+49 2351 551-300
info@erco.com
Technical Region: 230V/50Hz
Edition: December 16, 2005
Please download the current version
from
www.erco.com/72103.000
1/2
Product Information Bulletin
Fixture D3 Lamp
SYLVANIA BI-PIN
Low Voltage Halogen Lamps
A complete family of BI-PIN halogen lamps to meet
the various needs of designers and end users:
IR
• Axial filament
• 4000-hour average rated lamp life
• UV stop quartz capsule
• Low pressure
• Energy saving IR technology
• No UV-B or UV-C Light output
• Suitable for use without shielding*
STARLITE
• Axial filament
• 4000-hour average rated lamp life
• UV-control quartz capsule
• Low pressure
• Suitable for use without shielding*
The SYLVANIA family of BI-PIN lamps represents an
outstanding collection of compact, low voltage halogen
light sources ideal for a wide range of applications.
Top of the line BI-PIN IR lamps have an infrared reflective
coating on the outside of the capsule to conserve heat
energy and create a more efficient source. With an axial
filament for easy focusing and a 4000 hour life these lamps
are suitable for either saving energy or increasing light output
from existing fixtures without increasing energy costs.
High performance axial filament STARLITE lamps enable the
design of efficient reflector systems that are easy to focus,
resulting in better quality light on the target. These long life
efficient lamps meet the needs of all residential, commercial
and industrial bi-pin applications.
All SYLVANIA BI-PIN lamps utilize advanced UV-stop quartz
that reduces UV-B and UV-C radiation by 90% compared to
regular quartz. In addition, the IR coating on BI-PIB IR lamps
further reduces this spectrum, effectively eliminating all UV-B
and UV-C radiation from those capsules.
All 6V and 12V SYLVANIA BI-PIN lamps are low-pressure,
low-voltage capsules. Because of this, these lamps are
suitable for use without shielding.* The 24V SYLVANIA BI-PIN
lamps are high-pressure capsules, and a suitable protective
shield is required with these lamp types.
STANDARD
• Clear and frosted
• 2000-hour average rated lamp life
• UV-control quartz capsule
• Low pressure
• 6V and 12V suitable for use without shielding*
Product Availability
Watts
STARLITE
STANDARD
5
10
20
35
37
50
75
90
T3
T3, T3 (6V)
T3, T4
T4
T3, T3/F
T3, T3/F
T3, T3/F, T3 (24V)
T4
T4
T4
T4, T4/F, T4 (24V)
T4
BT4
BT4
*SYLVANIA does not require lamp containment shielding. Consult most
recent UL standards for luminaire requirements.
Application Information
Applications
Application Notes
Fixtures
Small aperture down lighting
Residential, commercial and
industrial applications
Accent strip lighting
Task lighting
Display lighting
• Axial filament orientation means light is smoothly
distributed by reflector
• Do not touch lamp with bare hands
• Overall UV-emissions are reduced 95% for extra
fade protection on light sensitive materials
Ardee/USA
Belfer
BK Lighting
CSL
Lucifer
Roberts
Tivoli
HAL007R3
IR
Fixture D3 Lamp
Sample Specification
Lamp Comparison
STANDARD
Lamp(s) shall be (a) 12V or
24V BI-PIN halogen lamp(s)
with a UV-control quartz
capsule and a 2000-hour
average rated life. Lamp(s)
shall be frosted or clear with
an axial or transverse
filament.
Item No.
58676
STARLITE
Lamp(s) shall be (a) 12V
STARLITE halogen lamp(s)
with a UV-control quartz
capsule and a 4000-hour
average rated life. Lamp(s)
shall be clear with an axial
filament and gold plated pins.
IR
Lamp(s) shall be (a) 12V
BI-PIN halogen lamp(s) with
a UV-control quartz capsule
and a 4000-hour average
rated life. Lamp(s) shall be
clear with an axial filament,
a constant and an infrared
reflective coating on the lamp
capsule.
Ordering and Specification Information
24V BI-PIN Lamps must be
operated in enclosed fixtures.
Lamp Type
50T4Q/CL/AX
Brand X Q50T4/CL/CD
Brand Y 50W/12V/Capsule
Incandescent 60A19/CL
Watts
50
50
50
50
Lumens
930
950
950
890
Av. Rated life
4000
2000
2000
1000
Dimensions
(A)
MOL
(B)
LCL
Standard (2) 5W-20W
Standard (2) 50W-75W
Standard (1) 50W/100W (24V)
31mm
44mm
44mm
22mm
30mm
30mm
Starlite (2) 5W
Starlite (1) 10W-20W
Starlite (1) 35W-90W
31mm
31mm
44mm
22mm
22mm
30mm
IR (3) 37W & 50W
44mm
30mm
BI-PIN IR
Item
Number
Ordering
Abbreviation
58683
58687
37BT4Q/IR
50BT4Q/IR
Watts
Volts
Base
Avg. Rated
Life
Lumens
(lm)
Figure
37
50
12
12
GY6.35
GY6.35
4000
4000
900
1320
3
3
Watts
Volts
Base
Avg. Rated
Life
Lumens
(lm)
Figure
5
10
10
20
20
35
50
75
90
12
12
6
12
12
12
12
12
12
G4
G4
G4
G4
GY6.35
GY6.35
GY6.35
GY6.35
GY6.35
4000
4000
4000
4000
4000
4000
4000
4000
4000
60
130
130
320
320
600
930
1450
1800
2
1
1
1
1
1
1
1
1
Watts
Volts
Base
Avg. Rated
Life
Lumens
(lm)
Figure
5
10
20
50
20
50
12
12
12
12
24
24
G4
G4
G4
GY6.35
G4
GY6.35
2000
2000
2000
2000
1000
2000
60
140
320
930
350
850
2
2
2
2
2
1
Watts
Volts
Base
Avg. Rated
Life
Lumens
(lm)
Figure
5
10
20
50
12
12
12
12
G4
G4
G4
GY6.35
2000
2000
2000
2000
55
130
300
830
2
2
2
2
STARLITE
Item
Number
Ordering
Abbreviation
58690
58691
58692
58694
58663
58672
58676
58680
58684
5T3Q/CL
10T3Q/CL/AX
10T3Q/CL/AX/6V
20T3Q/CL/AX1
20T4Q/CL/AX
35T4Q/CL/AX
50T4Q/CL/AX1
75T4Q/CL/AX1
90T4Q/CL/AX
Ordering
Abbreviation
National Accounts
58652
58658
58661
58675
58662
58678
5T3Q/CL1
10T3Q/CL1
20T3Q/CL1
50T4Q/CL1
20T3Q/CL/24V
50T4Q/CL/AX/24V
Phone: 1-800-562-4671
Fax: 1-800-562-4674
FROSTED
Industrial & Commercial
Phone: 1-800-255-5042
Fax: 1-800-255-5043
Special Markets
Phone: 1-800-762-7191
Fax: 1-800-762-7192
In Canada
OSRAM SYLVANIA LTD.
Headquarters
2001 Drew Road
Mississauga, ON L5S 1S4
Industrial & Commercial
Phone: 1-800-263-2852
Fax: 1-800-667-6772
Special Markets
Phone: 1-800-265-2852
Fax: 1-800-667-6772
Visit our website: www.sylvania.com
Item
Number
Ordering
Abbreviation
58651
58656
58695
58698
5T3Q/F
10T3Q/F
20T3Q/F
50T4Q/F
1
Also available in bulk pack
Ordering Guide
50
Wattage
T4
Tubular Lamp
T3= Diameter (3/8")
T4= Diameter (4/8")
BT4=Bulbous tube (4/8")
Q
Quartz Glass
/
CL
Finish
CL = Clear
F = Frosted
IR = IR Conserving
/
AX
AX= Axial Filament
__= Transverse
/
24V
Voltage
__= 12V
24V
6V
© 2002 OSRAM SYLVANIA
Item
Number
OSRAM SYLVANIA
National Customer
Support Center
18725 N. Union Street
Westfield, IN 46074
Printed on recycled paper. 10/02
STANDARD
Fixture F1,F2,F3
i
color c o v e nxt
®
Color Kinetics® iColor® Cove NXT brings digital color changing light and lighting effects to alcoves,
task areas, accent areas, and other tight spaces without the drawbacks, expense, or constraints of
conventional colored lighting methods. Providing a wide, symmetrical beam angle, iColor Cove NXT is
ideal for backlighting applications.
iColor Cove NXT is modular in design, and projects a soft-edge strip of light at a 120° by 120° beam
angle. Each length of iColor Cove NXT can be controlled by a Color Kinetics controller or a third-party
DMX512 controller. Each fixture comes pre-addressed to light number one. With a Color Kinetics controller, simple effects such as fixed color and color wash require no additional addressing. For other
effects across multiple lights, including Chasing Rainbow or Color Sweep, fixtures may be addressed
using Serialized Addressing Software (SAS) or Zapi 1.5.
iColor Cove NXT is available in fixed lengths of six (6) and twelve (12) inches. Each fixture is cased
in a low-profile, vented, molded plastic housing that
at snaps directly into a one-piece mounting bracket.
The fixed position mounting brackets are indexed to lock iColor Cove NXT into place, allowing for the
uniform alignment of multiple fixtures. Optional adjustable position brackets allow for easy rotation of
fixtures.
To connect power and data, each fixture is equipped with a three-pin header that attaches to a
master cable, making installations with curves or complicated geometries easy to install. Each master
cable is designed to be hardwired to a PDS-150e or PDS-60 24V
24V, which supplies power and data to
all connected lights.
iCOLOR COVE SPECIFICATIONS
COLOR RANGE
SOURCE
BEAM ANGLE
HOUSING
MOUNTING BRACKET
CONNECTORS
LISTINGS
16.7 million (24-bit) additive RGB colors; continuously variable intensity
output range
High brightness surface mount colored LEDs
120° x 120°
Two-piece vented plastic
One-piece fixed position provided
One-piece adjustable position, optional (Item#101-000007-00)
3-pin power and data connector for use with master cable (sold separately);
master cable unterminated for use with PDS-150e or PDS-60 24V
UL/cUL, CE
COMMUNICATION SPECIFICATIONS
DATA INTERFACE
CONTROL
Color Kinetics data interface system
Color Kinetics full line of controllers and DMX512 when using Color Kinetics
power/data supply
ELECTRICAL SPECIFICATIONS
VOLTAGE REQUIREMENT
POWER CONSUMPTION
DRY
POWER SUPPLY
MASTER CABLE
24VDC
Maximum: 4 Watts (6-inch)
Maximum: 6.2 Watts (12-inch)
PDS-150e (ITEM# 109-000008-01) or
PDS-60 24V (ITEM# 109-000017-00/01/02)
Wire Harness for iColor Cove (ITEM# 108-000013-00)
ENVIRONMENTAL SPECIFICATIONS
TEMPERATURE RANGE
ITEM# 101-000015-00 (12-inch)
101-000015-01 (6-inch)
This product is protected by one or more of the
following patents: U.S. Patent Nos. 6,016,038,
6,150,774 and other patents listed at
http://colorkinetics.com/patents/.
Other patents pending.
©2003-2005 Color Kinetics Incorporated. All rights reserved.
Chromacore, Chromasic, Color Kinetics, the Color Kinetics
logo, ColorBlast, ColorBlaze, ColorBurst, ColorCast, ColorPlay,
ColorScape, Direct Light, iColor, iColor Cove, iPlayer, Optibin,
QuickPlay, Sauce, the Sauce logo, and Smartjuice are registered
trademarks and DIMand, IntelliWhite, Powercore, Video With
Light, and Light Without Limits are trademarks of Color Kinetics
Incorporated.
All other brand or product names are trademarks
or registered trademarks of their respective owners.
BRO114 Rev 05
Specifications subject to change without notice.
-4°F to 122°F (-20°C to 50°C)
SOURCE LIFE
Color Kinetics illumination products utilize high brightness LEDs as the illumination source. LED manufacturers predict LED life of up to 100,000 hours MTBF (mean time between failure), the standard used by conventional lamp
manufacturers to measure source life. However, like all basic light sources, LEDs also experience lumen depreciation
over time. So while LEDs can emit light for an extremely long period of time, MTBF is not the only consideration in
determining useful life. LED lumen depreciation is affected by numerous environmental conditions such as ambient
temperature, humidity and ventilation. Lumen depreciation is also affected by means of control, thermal management, current levels, and a host of other electrical design considerations.
Color Kinetics systems are expertly engineered to optimize LED life when used under normal operating conditions
[ambient temperature: -4° F to 104° F (-20° C to 40° C), humidity: 0-95% non-condensing humidity, adequate ventilation and air volume] and when operated using typical color-changing effects. Long-term operation outside of these
ranges or conditions, or at the upper limits of these ranges or conditions, may subject the product to further degradation of the LED source life, or in extreme cases, failure of internal components. Source life information is based on
LED manufacturers‘ data, as well as other third party testing.
U.S. AND FOREIGN PATENTS AND PATENTS PENDING
Color Kinetics Incorporated • 10 Milk Street, Suite 1100 • Boston, MA 02108 • USA
Tel 888 FULL RGB • Tel 617 423 9999 • Fax 617 423 9998 • info@colorkinetics.com • www.colorkinetics.com
D
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Photosensor
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LS-301 Dimming Photosensor
Automatic dimming based
on ambient light levels
All setup performed remotely
with handheld
Controls standard 0-10 VDC
electronic dimming ballasts
Optional occupant adjustment
via handheld remote
Single zone control
Closed loop daylighting control
PROJECT
LOCATION/TYPE
Product
Overview
Description
Adjustment via Handheld Remote Control
The LightSaver LS-301 is a ceiling mount, low
voltage indoor photosensor that works with standard, 0-10 VDC electronic dimming ballasts to dim
lighting as daylight increases.
All LS-301 adjustments are made with one of two
handheld remotes. The LSR-301-S provides five
buttons for initial set-up, which is easily completed
by first raising or lowering electric light levels to
desired levels, then programming this target level
into the photosensor. The LSR-301-P provides
three buttons for occupants to adjust light levels.
With this optional tool, users can increase target
light levels by up to 25% or reduce them to the
lamp/ballast minimum level. Pressing the “Auto”
button returns the control to programmed levels.
Operation
The LS-301 mounts on a ceiling and utilizes a
spectral filtering system to measure daylight and
electric light levels. A closed loop daylighting
system, the LS-301 measures the total light level
from daylight and electric light in the controlled
area to adjust electric lighting levels. As the daylight contribution increases, the lights dim down.
The photosensor utilizes sliding setpoint control,
which responds to the different spatial distribution
qualities of electric light and daylight. The LS-301
calculates the required light level for current daylight contribution based on two setpoints. One
represents the target level when no daylight is
present (night setpoint) and the other when significant daylight is present (day setpoint).
Features
The LS-301 is designed to blend into its surroundings when installed in any environment. It provides
one zone of daylighting control in a private office or
classroom. In these applications, the LS-301 can
be combined with an occupancy sensor. Often, it is
possible for the LS-301 to share a single power
pack with occupancy sensor(s).
• Provides precise control of lighting to maintain
desired light level
• Separate handheld remote controls for setup
and occupant adjustment to prevent tampering
• Extremely linear photocell response with
greater than 1% accuracy
• Boosts energy savings by reducing maximum
lamp output, often resulting in a 20% reduction
or more compared with lights at full output
• Designed to measure light as the human eye
perceives it, eliminating “overreporting”
illumination levels provided by daylight
www.wattstopper.com
800.879.8585
Applications
• Achieves lumen maintenance by holding target
light level as lamp output decreases over time
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LS-301 Technical Information
Spectral Response Curve
Remote Controls
100
Nighttime setpoint
Auto button for
automatic
dimming
Auto
LS-301
Photosensor
Setup Tool
90
Button
activation LED
Night
Auto
Raise/lower
light levels
Day
Relative Sensitivity (%)
Product
Controls
• Sensor leads: gray and violet to ballast, red
and black to 24 VDC
• Dimensions: 2.35” diam. x 0.875” depth
(60mm x 22mm), threaded piece extends
1.25” (31.8mm) from back, fits .5” knockout
• 5 year warranty
• Full range dimming: .2 VDC (minimum) to 10
VDC (100% lighting) output voltage
• Current consumption: 30 mA @ 24 VDC
• In typical applications, setpoints are
adjustable from 20-60 footcandles (210-640
lux)
• Controls up to 50 standard dimming ballasts
in one zone
Specifications
Lighting Control
80
70
60
50
40
30
20
Daytime setpoint
LSR-301-S
LSR-301-P
10
0
300
Remote handheld (above left) enables easy set-up while
optional occupant remote provides adjustability for
individual lighting preferences.
Wiring &
Installation
400
500
600
700
800
900
Wavelength (nm)
The spectral response of the LS-301 photocell closely
matches the sensitivity of the human eye.
Wiring
Mounting and Installation
White (Neutral)
Red (Line)
Power Pack
Blue
Electronic
Dimming
Ballast
Red (Load)
Blue
Blue
Red
Red
Red
Black
Vio
Gray
Yel
Yel
Black
Black
Vio (+)
Gray (-)
Black
Hot
White
Neut.
Retaining Nut
Plastic Washer
Any 24VDC
Occupancy Sensor
Ceiling
Red
Control
Output
24VDC
Lamp
LS-301
Lamp
+24VDC (in)
Common
6ft.
min.
Lens Orientation
Lighting
Watt Stopper/Legrand®
Pub. No. 17504
• Mount photocell between 6 and
12 feet (1.8m - 3.7m) from
window.
LS-301
4ft.
min.
Ordering
Information
Placement Guidelines
Window
Coverage
Catalog No.
Lighting
• Do not mount directly above
direct/indirect pendant fixtures.
Mount at least 4 feet (1.2m)
from pendant fixtures.
Description
Input Voltage
LS-301
Dimming Photosensor
24 VDC
LSR-301-S
Setup Remote Control (2 AAA batteries included)
LSR-301-P
Occupant Remote Control (2 AAA batteries included)
LS-301 works with Watt Stopper power packs